•
Cat. No. 014E-02-2003
NOK CORPORATION
Together with Oil Seals
m k
NOK
OIL SEALS
The first true oil seal model was created in Germany in 1927. 12 years later, NOK was established as the first specialized manufactur¬ er of oil seals in Japan. Therefore, the history of oil seals in Japan is in fact the history of NOK. To the extent that the quality of an entire country's oil seals also reflects its advanced industrialization level, NOK has been leading the way for over half a century with superior technology. NOK has consistently established leading technologies based on cutting-edge theories. For instance, in 1959, the company was the first to expound a theory
of lubrication relating to friction and the sealing of oil seals. Such technological innovations and unmatched quality control has enabled NOK to provide reliable,
functional products.
NOK also has been instrumental in developing various research and development areas, including electronics, nuclear power, and polymer chemistry, all based on our accumulated technical knowl¬
leading technologies. At present, NOK is actively researching and developing new products that will herald the future for the fields of chemical electronics, optical elec¬ tronics, and biotechnology.
edge.
Companies in various industries worldwide depend on the knowhow NOK has cultivated through decades as a market leader. In keeping with this trust, and to respond to every individual need, we at NOK are dedicated to fur¬ ther improving our technologies and developing next-generation seal products.
As we continue to strive to meet From component parts to sub¬ assemblies to complete systems, the company's manufacturing business has continued to grow since its beginning.
Oil seals are not only the mainstay of NOK, but are also important foundations for NOK's various
our goals of manufacturing oil seals with even higher levels of functionality and precision, we ask for the continued support of you, our customers.
CONTENTS
ÿ ÿ
c
What Is An Oil Seal?
The Sealing Mechanism of an Oil Seal
A-1-A-4
—
B-1 B4
NOK Oil Seal Types
C-1~C-6
ÿ
NOK Oil Seal Materials
D-1~D-7
El
NOK Oil Seal Application Guide
ÿ
Housing and Shaft Design Guide
F-1~F-15
Seal Handling Guide
G-1~G-I1
Type 8 Size List of NOK Oil Seals
H1~H-100
G
ÿ ÿ ÿ K
Leakage Troubleshooting Guide
~ E-15
E-1
—
1-1 1-8
Technical Data
J-1~J-32
Reference Data
K-1—-K-13
Two oil seals having identical contact pressure distri¬ butions were produced using these two lip materials. Since it is generally difficult to measure an air intake rate on an oil seal, the fluid transfer rate is measured using a reversed seal orientation. Thus, oil is now on the "air-side ' of the seal, and is transferred under the seal lip via the seal's pumping action. Scenario (a) in Figure 4 shows a normal seal installa¬ tion, i.e., when air is forced toward the oil side. Scenario (b) shows that oil is transferred toward the air side because the oil seal is installed in 'the reverse
direction.
Figure 4: Normaland Reversed Oil Seal Orientalion
The two critical elements described above that exert control over the seal's performance, the lubrication characteristics and sealing mechanism, are in a deli¬ cately controlled balance through two design factors: the material and shape of the lip. Therefore, in view of these material science considerations, it is necessary to keep in mind that the circulating oil flow must be restricted to within the lip contact area, and that the average film thickness under the seal lip must be con¬ trolled. NOK has put considerable effort into developing lip materials specifically based on the above concepts, and has developed oil seals that can respond to various demanding conditions. NOK will continue to concentrate on providing prod¬ ucts of unsurpassed performance and quality through our ongoing development activities.
(1)Correct Orientation
//////////////////////////// (2) Reverse Orientation
(Air side)
//////////////////////////// Through the reverse installation (b). the seal's ability to pump oil was quantified by running the shaft and measuring the resultant oil flow rate. As a result, lip material A was easily identified as more effective in pumping fluid from the air side toward the oil side than lip material B. This was true only when the shape of the lip is not considered (or the same). Even when the lip materials were identical, the pump¬ ing ability changes according to the profile of contact pressure distribution; for instance, by changing the shape of the lip.
B-4
-a-
ÿWhat Is An Oil Seal?
A-2 -
ÿFunctional Components of
an Oil Seal
A-2
In this Catalog, both the International System of Units(SI) and the conventional system of units are used.
- I-
A-1
A. WHAT IS AN OIL SEAL? Simply stated, oil seals are components of a machine that seal lubricants. Lubricants are used in the friction-producing areas of a machine to ensure smooth movement and long life, and oil seals are used to prevent this lubricant from leaking through "bearing clearances" of the machine. With advances in mechanical engineering, it has become necessary to prevent the leakage of not only lubricants but also water or chemicals, as well as preventing the entry of dust and dirt into the machine. Oil seals are used to perform both functions.
'lite function of an oil seal is easily understood by examining a familiar example:the automobile. Figure 2 shows oil seals used in automobile engines. In such engines, the reciprocating motion of the pistons is converted into the rotary motion of the crankshaft by the connecting rods. The crankshaft is supported by metal bearings. To lubricate these metal bearings, and other areas where metal and metal slide against each other, engine oil is filled in the oil pan. Since the oil pan is secured to the crank case, "bearing clearance" is needed between the fixed crank case and the rotating crankshaft. An oil seal is a sealing device that prevents the leakage of engine oil from the bearing clearance between the rotating crankshaft and crankcase, or the bearing clearance between a reciprocating shaft and crankcase.
0 rings, lip packings, gland packings, and mechanical seals function in similar ways to oil seals, as shown in Figure 1. Oil seals are most often used in rotating
Figure 3 shows oil seals typically used in a geared
shaft applications.
motor.
Figure 1: Seal Classitications
Oil Seals -Contacting seals
ÿ
Mechanical Seals teals
ÿ
Molded Packings ings
ÿ
:
_JUp Packings
—
V-packings)
1
Squeeze Packings l_Sqt
(O-rings, D-rings,
X-rings, slipper seals)
—
Dynamic Seals-
-Gland packings
(packings)
ÿ
Seal Types
——
ÿ
Non-Contacting seals
—
Miscellaneous (diaphragms, bellows) |
i— fMagnetic Fluid Seals
I L— L Labyrinth Seals
• Rubber-Coated Embossed Metal Gaskets -Static Seals (gaskets)
Metallic gaskets
-
ÿ
-
Metallic O-Rings Flat Metal Gaskets (indudes rubber-coated versions)
Non-Metallic gaskets
Rubber Gaskets
Square boxes around products indicate products produced by NOK and NOK group companies.
A-2
Figure 2: Oil Seals in a Typical Engine Application
Crankshaft
Connecling Rod
Main Bearing
Figure 3: Oil Seals Used in a Typical Geared Motor
Rotator
-3-
A-3
ÿ Functional Components of An Oil Seal Figure 4 shows the exterior features of a typical oil seal. and Table 1 describes the function of each part of an oil seal.
Figure 4: Basic Features of An Oil Seal
.Garter Spring (Air Side)
©Main Sea! Up (Shaft)
©Secondary (Dust) Lip
©Seal Lip Edge
Table 1: Functions of the Various Oil Seal Components Part Name
o
A-4
Sealing Edge (shaft contact)
0
Lip Area Seal Lip
©
Dust Lip
O
Seal Outer Diameter
Function The seal lip has the cross-sectional profile of a wedge, and it presses down onto the shaft surface to seal in fluid. The seal lip is made of a flexible elastomer and is designed to maintain stable shaft contact and sealing even with machine vibration and fluid pressure fluctuation. A garter spring adds to the radial load and helps keep the sealing edge in proper contact with the shaft.
A dust lip is an auxiliary spring-less lip. and acts to prevent dirt ingestion. The seal OD creates a press-fit to the housing bore, thus retaining the seal and preventing fluid escape. An internal metal case provides a solid backbone for rigidity.
ÿI
The Sealing Mechanism of An Oil Seal
ÿLubrication Characteristics-
-B-2
—
-8-3
ÿThe
Sealing Mechanism
B-1
B. THE SEALING MECHANISM OF AN OIL SEAL How do oil seals actually seal fluid? Due to the continuing efforts of many scholars and
researchers, the fundamental sealing mechanism of oil seals has been almost completely illuminated. NOK announced a sealing theory in 1959, followed by the release of numerous technical publications to the Japan Society of Mechanical Engineers, the Japan Lubricator Makers Association, the Society of Automotive Engineers in the United States (SAE), and the British Hydrodynamics Research Association (BHRA). This theory has earned an excellent reputation among researchers and related industrial societies as being an accurate representation of seal function. In this chapter, the lubrication factors and sealing mechanism of oil seals are briefly described based on the NOK sealing theory.
ÿLubrication Characteristics Oil seals used in machines play a major role in sealing fluid, whether the machine is stopped or a shaft is in motion. The frictional force of the lip area is small, and there is little wear. What lubrication factors of the seal lip's contact edge affect the life of an oil seal? These factors are explained in view of a seal's macroscopic phenomena. To understand these lubrication factors, it is important to evaluate the seal's frictional properties. For this reason, we placed seals in a test machine, as shown in Figure 1, and measured rotational friction forces by turning the shaft under various conditions.
Figure 1: An Oil Seal Installed in a Friction Testl I
-
Oil Film
Lip Conlacl Band
B-2
I iThe Sealing Mechanism Figure 2 shows the relationship between the nondimensional duly parameter, G (which is determined by the shape of the oil seal and conditions of use), and the coefficient of friction, f.
Figure 2: Fnction Characteristics ol Rotating Shalt Oil Seals (f vs. G plot) Shaft Speed: 10 to iSOOtpm
j0lT(i0MHK|9wiW| fccmlWOJ! 80'C
Ijp materials are an important factor in the formation of these special irregularities on the sliding surface of oil seals. Figure 3 shows the textures of the lip surface of two different materials. Ijp material A produces a more significant texture on the sliding surface than lip material B.
rS
01 05
1
2
)
SO
G
Here, the relationship between the coefficient of friction, f, and the non-dimensional duty parameter. G, is given by Expression (1).
/=Cl/3
mechanism of an oil seal using state-of-the-art image
processing technology. Underneath the very narrow lip edge, oil is continually circulated from the air side to the oil side, and then from the oil side to the air side. thus lubricating the sliding surfaces and limiting wear. Theoretical studies have revealed that the sealing mechanism is determined by minor "irregularities" in the sliding surface, and by how the pressure is distributed at the contact area. Here, the sealing mechanism of oil seal is briefly described through macroscopic phenomena.
us
*)
NOK was the first to actually view the sealing
Figure 3: Lip Surface Textures of Two Materials
(1) (Oil Side)
Where
/-Coefficient of Friction '/'-An Oil Film Condition Constant
6" -Non-Dimensional Duty Parameter (.-i n b/Pt)
Lip Contact Band Width
/V-Radial Lip Load on Shaft (N{kgf}) \ li-Oil Viscosity (N-s'cm!{kgl-s/cm!)) « -Linear Shaft Velocity (cm/s) b -Lip-to-Shaft Contact Band Width (cm) / The lip contact surface is significantly textured
In Figure 2. the positive slope area of the frictional properties has been explained by the lubrication theory. Under such lubrication conditions, the frictional property of seals is governed by the viscosity of the fluid and the shaft's linear velocity (and is also identical to the frictional property of the bearing), and the resultant oil film present underneath the lip edge. in other words, the oil seal's lip and the shaft slide against each other with an intervening film of oil, thus reducing wear.
-7-
The lip contact surface is smooth and even.
B-3
NOK Oil Seal Types
c
ÿStandard Oil Seals ÿGeneral
C-2 -
C-2 Oil Seals -
Types and Features ot NOK's Standard Oil Seals — C-3
Types and Features ot NOK's General Oil Seals— C-4 C-6 An Introduction to Other Seals -
-9 -
C-1
NOK Standard Oil Seals
TClype,TBly
pe
H
.
Nitrile (NBR)
ÿ Material •The sectional view on the right shows the typical profile of the seal type.
*41
TC type
Dimensions Shalt diameter Outside diameter D d 80 50 52 70 75 52 75 52
14 9
9 12
75
14
52
78 70 72
12
72
12 9 9 12
55
Pari Number
Part Number
AE 2888 EO AE 2959 H1 AE 2965 F 1 AE 2967 AO AE 2969 EO AE 2972 EO AE 3010 EO AE 3040 AO AE 3042 E2 AE 3045 EO
AD 2888 FO AD 2959 FO
b
52
54
9 9
55 55
75
55
78
55
78
55
78 79 80 80
14
AE 3056 EO
13
AE 3059 EO
10
85
14
72
9 9
AE AE AE AE AE
55
55 55
55 56 56 56
78 78
58
75
58 58
80 80 90
60
75
60 60
78
58
60
60 60 60 60 60 60 60 62
62 62
63 63 H-32
Width
80 80 82 82
TB type
12
12
9 9 12 11
9 9 12 13 9
12
82
14
85 90 90
11
90
14
80 85 85 80 85
9
12
13
9
12
9 12
—
AE 3055 AO
— — AD 3040 FO AD 3042 EO
—
AD 3053 EO AD 3055 HO
— — —
3061 EO
3062 3072 3092 3093 AE 3094 AE 3148 AE 3152 AE 3154 AE 3159 AE 3193 AE 3204 AE 3213
E1 FO E2 EO EO F1 EO
AD 3062 EO AD 3072 EO AD 3092 EO
A6
AD 3154 FO
—
AD 3094 EO
—
AD 3152 EO
—
EO
FO EO E5 AE 3215 EO AE 3220 EO AE 3222 AO
AE 3224 EO AE 3234 F2 AE 3241 El AE 3243 EO AE 3244 EO AE 3290 E3 AE 3295 EO AE 3297 AO AE 3316 FO AE 3321 EO
- 98
—
AD 2967 EO
AD 3193 FO
AD 3204 FO AD 3213 FO
—
AD 3220 EO
AD 3222 I0 AD 3224 EO
— — —
AD AD AD AD AD
3244 EO
3290 3295 3297 3316 AD 3321
EO EO F4 EO E2
C. NOK OIL SEAL TYPES At NOK, we classify oil seals as "standard" oil seals
and "general" oil seals.
'
I General Oil Seals
Standard Oil Seals
Standard oil seals are selected on the basis of NOK's extensive track record and understanding of customer needs, and have the following characteristics.
NOK's general oil seals are designed for specific machines or special conditions and requirements.
For the types of general oil seals for general-purpose use, or with a complete dimensional series. See Tables 2-1 and 2-2, Types and Features of NOK's General Oil Seals." Certain other types of oil seals are listed in Table 3, "An Introduction to Other Types of Seals."
.
1 Versatility These oil seals can be used under normal defined operating conditions. (Standard models and standard materials). See pages E-6 and E-7 for normal operating conditions.
Please contact us regarding oil seals not listed in this book (i.e., oil seals of standard designs or dimensions but of non-standard materials, or oil seals of standard designs or materials but of non-standard dimensions).
c 2. Readily Available These are easily obtained in Japan and throughout the world.
3. Conforms to International and Domestic Codes and Standards NOK oil seals comply with ISO. J1S, and JASO stan¬ dards. (Standard types and standard dimensions, shaft outer diameter of 300 mm or less) For standard oil seals, refer to Table 1 "Types and Features of NOK's Standard Oil Seals."
The oil seals listed in this book are not designed to be used in medical equipment. Do not use these oil seals in medical equipment or devices that are used for transplant surgeries or otherwise have contact with bodily fluids or human tissue.
C-2
-
to
-
Types and Features of NOK's Standard Oil Seals
Table 1: Types and Features ol NOK's Standard Oil Seals NOK Type Dcs»gnation and Cross-Section
jjjjjj,
Features
Primary Uses
Slype Oil seal lor dust-free
i appications
CP
Maximum pressure: ] i flo.03MPa(0.3kgt cnVjJ SC typo
Oil soal lor dust-lrce use with H-2 H-1S H-18 H-21 liuid sea ed on one side
SB type
T type Oil seal lor dusty
Oil soal lor very fire dust duty
environments
on one side, and lluid sealed / Maximum pressure: 1 on the other sde
H-38 H-39 H-42
lo.03MPa[0.3kgt'cm»}J
TB type
TC typo
New Fabric Seat
The TCK type can be used lor the same purposes as the TC and TB types, but it features dirt'sard environments bolter dust resistance and air f Maximum pressure: ) permeability. It produces less because the dust lip is i0.03MPai0.3kgt'cmr)J friction of a NOK-developcd made special fabric.
Oil seal lor coarse
TCK type
V type Grease or dust seal ÿ
VC typo
|Cannot be used tor \
(tugh-pressure apolcaoons/
rr VBtypo
K type "V"V"
Grease seal for dusty envionment duty ICannot bo used (or
Ihgh pressure a
KC type
Used to seal in grease or seal out dust. Can bo used in com¬ bination with the S-type oil seal.
1
Used lo seal in grease when there is a small amount ol dust on the other side. Two V type oil seals can also be used.
K8 type
TCV type
at seal lor pressunzed duty
TON type
Pressure-resistant oil seal with increased lip rigidity. Used for relatively small-diameter and medium-pressure rotating shafts.
H-56
Pressure resistant oil seal with
an auxiliary cage to minimize lip delormation under pressure. Used lor relatively targediamotor and high-pressure rotating
H-58
shafts.
T4 type
Oil seal tor reciprocal ing-shaft applications
Oil seal designed to minimize tip deformation under recipro IFor allowable pressures.! eating motion and pressure. see page E-7. I \
TC4 type
TB4 type
- II -
C-3
Types and Features of NOK's General Oil Seals Table 2-1: Types ana Features of NOK's General Oil Seals NOK Type Designation and Cross-Section Moton
Primary Uses
Features
J type (PTFE) Seal for two-cycle engines, torque converters.
or washers
Oil seal with a sealing edge of NOK's unique PTFE (ethylene tetrafluoride resin) featuring excellent self-lubricity. Best for use in poor-lubrication areas or low-fric¬ tion torque use
TCJ type
Chemical-resistant seal for high-pressure duty
SA1J type
Seal for agitator, blower, or food processing applications
IX VAJ type
Oil seal with a sealing edge of NOK's unique PTFE (ethylene tetrafluoride resin) for excellent chemical resistance SA1J type : Garter spring and case are made from SUS (stainless steel) mate¬ rial. Good for sealing chemicals. VAJ type. KA3J type : Case is made from
SUS (stainless steel) material. Good for sealing fine particulates or highly viscous fluids.
KA3J type
D type Seal to segregate two types of oils
Oil seal in which two sealing lips are placed in opposing directions; requires less space than mounting two pieces of S-type seals back to back.
Oil or grease seal with a rotating housing structure
Oil seal in which sealing lip is placed on the outer periphery; best for rotating housing structures.
Seal for an axle or claw axle of a tractor or power tiller
Oil seal to separate muddy water and oil; used with a cured rubber sleeve as a set. Since the oil seal is integrated with the sleeve, handling is easy.
A DC type
DB type
OC type H
J
QLFY type (Unitized Seal and Shalt Assembly)
VR type (V-shaped End Face Seal) Grease or dust seal for various machines
m
/Use W type seals to \ seal water or scale at the
Unitized rubber seal: used by press-fitting the inner surface and sliding seal axially to contact the end face of the housing.
\ roll neck of rolling mills I
z type Grease seal for the plummer block of an anti-friction bearing ZF type
C-4
ZT type
- 12 -
Used by mounting the oil seal into the trapezoidal groove of the plummer block of an anti-friction bearing. Use ZT type for a low dust quantities.
Types and Features of NOK's General Oil Seals Table 2-2: Types and Features of NOK's General Oil Seals NOK Type Designation and Cross-Section
Primary Uses
Features
SBB type Oil or water seal for dustfree and large-diameter
shaft use (Shaft diameter: >300mm)
Oil seal for dust-free use with fluid sealed on one side. Belter under high-speed rotation than the large-diameter SB type. A spacer-attached model is also avail¬ able.
Large-Diameler SB type Oil or water seal for dustfree and large-diameter shaft use (Shaft diameter: >300mm)
Oil seal for dust-free use with fluid sealed on one side. A spacer-attached model is also available.
Large-Diameter TB type
Oil or water seal for dusty-
&
area and large-diameter shaft use (Shaft diameter: > 300mm)
MG type Oil or water seal. Used for areas where seal cannot be inserted from the shaft end
Oil seal for light duty dust (dirt or sand) on one side and fluid sealed on the other side
Usedwhen a machine cannot be assembled without cutting the oil seal. A hook joint spring is used to mount the sealing lip, and the outer surface is sealed by pressing down against the contact surface of the shaft. Since one part of the seal is cut, the sealing performance is inferior to that of S-type seals.
W type
/
\ 't \ -A"' ' WT type
Oil seal to prevent the entry of water or scale by sliding the sealing lip against the shaft (flange) end face. The WT type is mounted by bolting, and the WTT type is mounted by tightening the collar band.
rxxxxx WTT type
OKC3 type
Water or scale seal for the roll neck of rolling mills Water or scale seal. Used by pressing the inner diameter surface of the seal onto the housing and sliding the outer sealing lip against the inner surface of the
shaft (flange)
MO type (Morgoil seal) Roll neck seal for film bearing (Morgoil). Seals oil inside and water outside by fixing the inner surface to the shaft (roll) and sliding two sealing lips on the housing side against the housing. MOX type
MOD type
MOY type (Meseta seal)
ÿ
J
Two-liquid oil and water seal for the roll neck of rolling mills
i
a /
MOY1 type
MOY2 type
13
Roll neck seal for film bearing (Mitsubishi Bearing). The inner surface of the seal is fixed to the shaft (roll) and outside lip on the housing side slides. Use MOY1 type (oil side) and MOY2 (water side) as a set. Can be changed individually
C-5
An Introduction to Other Oil Seals Table 3: An Introduction to Other Oil Seals NOK Type Designation and Cross-Section
l&on
Helica seal
"ft ft f LLvCtJ
ft"
Rotaing
Oil seal for engines or transmissions
Oil seal where the entire sealing lip edge has a molded-in helical feature on the air side. This "screw thread" acts to return the fluid trying to escape outside through the sealing lip back inside using a screw-pump action.
Seals splashing oil in engines
Oil seal where the end face seal and the slinger are molded, thereby improving installation reliability. Best under high¬ speed rotation
Seals areas where muddy water splashes on tractor or power tiller
Oil seal where the two dust-side lips of a T-type oil seal are used to improve dust
HTB type
HTC type
Features
Primary Uses
Super Package Seal UJ
o
2i
5'
(O
ft CSK type
Severe-Dust S eal Vl- Ok
Rotaing
resistance
C6Y typ
Washer Seal . .
k-
Rotaing
Oil seal designed specifically for washers.
Seal for dewafering shaft
Seals water in two places (dewatering
of a washer
shaft and inside the washing tub) of fullyautomatic washers
SDY type
Valve Stem Seal
VSB type
High Pressure Seal
1
ft
SCJY typ
Gas Spring Seal
f --fc
Ki ;i kW
c:x.
XKD type
Control Valve eal
.
fr
ÿ
5VY type
Dust Seal
ja;";—
r*
DKB type
C-6
DKH ty pe
Reciproatng Reciproatng Reciproatng Reciproatng Reciproatng
Seal for engine intake and exhaust valve stems
Oil seal to maintain a proper film of oil between the valve stem and valve guide of an engine
Seal for reciprocating rods with relatively large dynamic shaft misalignment
Oil seal for reciprocating motion. Pressure resistance is improved by an assembling nylon backup ring. Compared to U-type packing, this model is more suitable when a rod's dynamic misalignment is relatively large.
Seal for gas-spring rods of business machines, furniture, or medical equip¬
Oil seal for reciprocating rods of highpressure gas cylinders, with good sealing performance and low friction.
ment
Oil seal for hydraulic control
valves of construction machinery
Dust seal for hydraulic cylinders
-
14
-
Sealing performance is better and friction is lower than a rubber-only seal. The seal is fixed by clamping the outer flange.
Seal to prevent the entry of dust. The DKB seals oil better than the DKH type.
ÿ Rubber Materials
D-2
D-2 1. Rubber Types2. Types and Primary Uses ot NOK Lip Materials — D-5 ÿGarter
D-7 Springs and Metal Cases -
D. NOK OIL SEAL MATERIALS An oil seal is constructed of rubber (seal lips and outer surfaces), a garter spring and an internal case. The following materials are used for each part.
ÿRubber 1. Rubber Types When selecting a lip material for a seal application. please refer to Table 3 Types and Primary Uses of NOK's Up Materials"
Table 1 shows the types and features of the various rubber materials used in oil seals, and Table 2 shows their resistance to oils and chemicals.
.
Table 1: Rubber Types and Characteristics Used in NOK's Oil Seals
o > > o Item
33
1.
2L Q.' 33
33
CD
a;
CD
3
1%
O)
V)
>
Q>
3
Type
O CD
S
Water
Weathr
Resitanc Resitanc
Nitrile Rubber
£ QJ
cn
s to
1
A
(NBR)
Hydrogenated Nitrile Rubber (HNBR)
Temperature Range fC) Features Lower
Upper
Limit
Limit
-40
+125
This material is most often used in oil seals due to its excellent resistance to mineral oil and abrasion: however, oil seals made of this rubber cannot be used for polar solvents, such as ketone or ester.
-25
+140
This rubber has similar characteristics to nitrile rubber for oil seal use. but has better resistance to heat. oils, and weather than standard nitrile rubber. This rubber has the same good oil resistance as nitrile rubber, and has good heat resistance similar to silicone rubber. Weather resistance is also excellent. Resistance to alkalis or water is inferior to that of other types of rubber.
Acrylic Rubber (ACM)
X A A
-25
+150
Silicone Rubber
X A A
-60
+225
(VMQ)
other types of rubber.
Fluorocarbon
A
0
This rubber has heat resistance surpassing that of silicone. It also has excellent resistance to oils and chemicals. This material is the best rubber for oil seals due to its well-balanced characteristics.
-20
+250
-40
+125
solvents, inorganic chemicals, and weather. 7lts oil resistance is inferior.
-45
+100
This rubber has excellent resistance to polar solvents and water. Its oil resistance is inferior.
Tetrafluoroethyle ne Resin (PTFE)
-65
+260
This material has the maximum degree of resistance to heat. cold, chemicals, and weather, and a lower coefficient of friction. It is not as elastic as rubber.
Fabric
-50
+160
Since the primary material is synthetic fiber, resistance to heat and fraying is superior to that of conventional felt.
Rubber (FKM)
Ethylene-
X Propylene Rubber (EPDM)
StyreneButadiene Rubber (SBR)
Remarks :
X
A
A
Resistant Resistant Except in Special Cases
z . Not Resistant Except in Special Cases X Not Resistant
D-2
This rubber is highly resistant to heat, cold, and weather. but its resistance to alkalis or water is inferior to that of
- 16 -
This rubber has excellent resistance to
water,
polar
Note(1): Oil resistance does not include resistance to phosphoric ester or water-glycol fire resistant
fluid. Note (2): Temperatures shown in the temperature range are based on the following codes. Upper Temperature Limits Is defined as the highesl temperature that allows a maximum tensile strength change of 630%, an elongation change of —50%, or a hardness change of 615 points after the completion of a 70-hour air-oven aging test. [This maximum temperature applies to the heat-resistant reference temperature for material evaluation as defined in ASTM (The American Society for Testing and Materials) D2000 Line Call-outs.] Lower Temperature Limits
Figure 1: TR Diagram
\
(Example) Acrylic Rubber TRIO value = -25 C
\
\
-
The TR10 value is used to determine the low temperature limits. TR is an abbreviation for"temperature-retraction," as defined in ASTM D1329. TR represents the recovery properties during low temperatures,
\\
\
and nearly equals the recovery properties of
rubber-like elasticity. The TR10 value indicates the temperature when a given strain is recovered by 10%. Figure 1 shows a typical TR curve. T: Temperature ( C)
Cold Temperature Resistance of Oil Seals The cold temperature resistance of an oil seal is determined by a
Therefore, NOK uses the TR10 value for lip materials as an index
complicated interaclion of various elements, such as the character¬ istics of the lip material and fluids to be sealed, shaft run-out, and start up speed.
of the lowest allowable tempera¬ ture. Under actual use conditions, even if the temperature is lower than the TR10 value, the temper¬ ature at the sealing edge increas¬ es due to friction immediately after start-up, allowing rubber-like elasticity to be recovered and thus retain good sealing performance.
The lip of the oil seal flexes only a few percent when the run-out of the shaft is only a few percent.
17
However, even if the temperature is higher than the TR10 value. leakage may occur if the shaft run-out is too severe for the lip to follow properly. Thus, it is dan¬ gerous to determine the allowable temperature of oil seals solely on the TR10 value. These and other factors mentioned should be taken into consideration.
D-3
Table 2: Oil and Chemical Compatibility of Various Rubber Materials
Rubber Type Oil/Chemica
Engine Oil
Hydrogen Nitrile ated Nitrile Acrylic Rubber Rubber
Rubber
SEA #30
X
X
SEA 10W-#30
X
X
A
X
X
A
A
A
X
X
X
Automotive
Gear Oil
Ethylene- Styrene- Tetrafluor Silicone Fluorocar Propylene Butadiene oethylene bon Rubber Rubber resin Rubber Rubber
Class 2 industrial use (extreme-pressure), synthetic base
A
Torque Converter Oil
Automatic Transmission Fluid DOT 3 (glycol base)
Brake Fluid DOT 5 (glycol base)
A
X X
X X
DOT 5 (silicone base)
Class 2 Turbine Oil Machine Oil (No.2 spindle oil) Hydraulic Fluid (mineral oil base)
Fire Resistant Phosphate Base Fluid Water + Glycol Base
X
X
Cutting Fluid
X X X
X
A
X
X
X
X
X
A
X
X
A
X
X
A
X
X
X
X
X
X
X X
A
A
A
Mineral Oil Base
Grease
X
X
Silicone Base
A
X
X
X
X
X
X
X
X
Gasoline
X X X
X
X
X
Light Oil, Kerosene
X
X
X
X
Heavy Oil
A
X
X
X
Anti-Freeze Solution (ethylene glycol base)
X
A
Fluorine Base Refrigerants R12+ Paraffin Base
R134a+Glycol Base
X
Water, Warm Water
X
Sea Water
X
X
X
X
X
A
X
A
X
X
A
X
X
X
X
X A
Water, Steam
X
X
A
10% Hydrochloric Acid Solution
30% Sulturic Acid Solution 10% Nitric Acid Solution
X
A
40% Sodium Hydroxide Solution
X
Benzene
X
Remarks :
X
X
X
Resistant Resistant Except in Special Cases Not Resistant Except in Special Cases X Not resistant
D-4
X
X
X
X
X
X
X
X
Ethyl Alcohol Methyl Ethyl Ketone
A
o
- 18 -
2. Types and Primary Uses of NOK Lip Materials Various NOK seals using the types of rubber introduced in Table 1 are available. Table 3 shows the types and primary uses of typical NOK lip materials.
proper raw materials or compounding chemicals, and apply appropriate compounding techniques. At NOK. we develop high-quality raw materials and compounding chemicals, combined with research about the effect of each material on the sealing function, in order to create an optimal material for oil seals. Furthermore, we apply the results of this research and technology to manufacture better lip materials.
Each lip material is designed for outstanding sealing performance and the best balance between each property inherent to a raw material. To obtain well-balanced lip materials, it is vital to select Table 3: Types and Primary Uses of Typical NOK Lip Materials
NOK Lip Material
Rubber Type Nitrile Rubber
Temperature Range Material Symbol (Durometer A) CC) (Color) Hardness
Primary Uses
A727 (Black)
70
-30-+120 Standard material (for rotating shafts)
A941 (Black)
80
Standard material for medium-to-large -25—MOO diameter (150 mm or larger) shafts
(NBR)
—
(for rotating shafts)
80
—11
A275 (Black)
70
-40—MOO
A427 (Black)
80
-40~+100 Cold resistance (for reciprocating shafts)
A571 (Black)
75
-25
A368 (Black)
75
Compliance with the Food Sanitation Law -20—MOO (for rotating shafts)
A989 (Black)
70
-20—MOO Special material (MO type)
A1 03 (Black)
70
-22
A1 04 (Black)
80
-21
A134 (Black)
60
-20—
Hydrogenated Nitrile Rubber (HNBR)
G418 (Black)
75
-25—F130 (for reciprocating shafts, MOY type)
Acrylic Rubber
T303 (Black)
80
-15—F150 Standard material (for rotating shafts)
(ACM)
T599 (Black)
80
-25
T302 (Black)
70
15
S728 (Black)
80
-45
M70 Standard material (for rotating shafts)
S817 (White)
75
-45
with the Food Sanitation Law M70 Compliance (for rotating shafts)
F585 (Brown)
75
-15
F200 Standard material (for rotating shafts)
F975 (Brown)
80
—15
F548 (Black)
85
—16
F200 Special material (for reciprocating shafts) F200 Pressure resistance (for rotating shafts)
F129 (Black)
70
-15
F200 Special material (VR type)
T etrafluoroethy lene Resin (PTFE)
31BF (Black)
Durometer D
(—50)
F220
Fabric
31 FH (Black)
Fluorocarbon Rubber (FKM)
40WF (White)
65
-
» s
P*
o
—-J
Standard material (for reciprocating shafts MOO and high pressure), fuel oil resistance
A795 (Black)
Silicone Rubber (VMQ)
Ru'd to be Sealed os sf o
—
MOO
—
MOO
—MOO
—
Cold and weather resistance (for rotating shafts)
°
Abrasion resistance from muddy water
0
(for rotating shafts)
0
Water resistance (for rotating shafts)
°
Special material (TCJ type)
MOO Special material (MG type) Special material (VR type) Special material
I
— — —
M50 Special material (TCJ type)
— — —— — —
(—50)
Note(1): Ethylene-propylene rubber and styrene-butadiene rubber (not listed in Table 3) are also available lor special uses. Note(2) :Temperatures listed are based on the following criteria. Upper Limit : A yardstick for temperatures that can be used relative to the function of oil seals. Lower Limit : The TR10 value for each lip material is used.
M40 Cold resistance (for rotating shafts)
—
19
Special material (J type), resistance to chemicals and heat, low friction Compliance with the Food Sanitation Law (for rotating shafts)
hi60 Material for secondaiy/dust lips, air permeability
-
—
°
Note (3): For details on resistance of various lip materials to sealing fluids, see Chapter 7 (page J-7)
D-5
The various degrees of resistances and the tempera¬ ture ranges shown in Tables 2 and 3 are for informa¬ tional purposes only. Users should carefully read Chapter li "NOK Oil Seal Application Guide" and Chapter J "Oil and Chemical Resistance of NOK Up
Materials." To safeguard the function of the oil seal, careful atten¬ tion is required regarding the application's operating temperatures, as temperature directly affects the both
the seal and the fluids. Rubber is sensitive to changes in temperature. A change in rubber at higher temperatures produces a chemical change in which elasticity is lost because the high polymers of the rubber are excessively cut or bonded due to heal, oils, chemicals or ozone. Therefore, the proper working temperature can be determined by the correlation between temperature and time. For example, relatively high temperatures may be used for short periods of time. Conversely. lower temperatures may be used for longer periods of time. Another change in rubber properties at very low tem¬ is hardening caused by less active polymers. This reversible phenomena is dependent on tempera¬ ture only. The normal rubber-like elasticity of an oil perature
seal is recovered when the ambient temperatures return to normal.
D-6
- 20 -
:
(Garter Springs and
Metal Cases
NOK's garter springs and cases are made from the materials shown in Table 4. Standard materials for garter springs and cases are
Spring and metal case materials
used in oil seals for lubricant or grease sealing. Special materials are used for sealing water, corrosive chemicals, or gas.
Metal Case
Garter spring
Standard materials
Special materials
JIS G 4309 SUS (hard-drawn copper wire) (stainless steel wire)
JIS G 3521 SW
Special materials
JIS G 4305 SUS (cold-rolled stainless steel sheet) JIS G 4307 SUS
(cold-rolled steel sheet and strip)
JIS G 3131 SPHC (cold-rolled stainless
JIS G 3522 SWP (piano wire)
Fluid to be Sealed
Standard materials JIS G 3141 SPCC
304
316
(hot-rolled sleel sheet and strip)
steel strip)
304
316
Lubricants, grease Water
X
0
Steam
X
o
X
Sea water
X
X
X
X
Acids
X
X
X
X
Alkalis
X
Remarks :
X
X
Can be used X Do not use
— The Function of a Garter Spring A garter spring increases and maintains the pressure of the sealing lip on the shaft. Since garter springs used in oil seal have the characteristics shown in Figure 2, it is possible to obtain the load necessary for good sealing with little elongation. As shown in Figure 2. even if a garter spring is elongated to some extent, the spring load does nqt change significantly. The length of a garter spring in an oil seal is determined by considering the proper amount of elongation required to ensure that it can function properly within the working range defined in Fig. 2.
Figure 2: Characteristics of Garter Springs Used in Oil Seals
Point or
Inflection
Ekjngaron (mm)
p The Function of a Metal Case =-
--
==——-
Cases plays an important role in maintaining the retention strength between the seal and the housing bore, thus keeping the seal lip at its intended position.
D-7
-
22 -
NOK Oil Seal Application Guide
-E-2 E-2 1.The Selection Process-
ÿNOK Oil Seal Application Guide
2. Allowable Operating Temperature Range -E-7
E
E. NOK OIL SEAL APPLICATION GUIDE To ensure optimal performance, it is necessary to select the appropriate oil seal type and material for the actual operating conditions.
This chapter describes selection process and permissible temperature ranges for each type of oil seal listed in this catalog. If the oil seal you need (type, material, or dimensions) is not listed in this catalog, please contact us regarding customized products.
Selection Process Use the following steps to select your oil seal.
.
1 Select the Seal Type
Select the proper seal type per Figure 1 "Flowchart for Seal Type Selection" on pages E-4 and E-5.
2. Select the Seal Lip Material Since lip materials for catalog products should be selected according to the appropriate condi¬ tions for each oil seal type (see Table 1 "I.ip Materials by Oil Seal Type" ), please refer to Table 3 "A Guide to Permissible Working Range of Standard Oil Seals' (on pages E-6 and E-7) and Table 4 "A Guide to Select the oil seal type in accordance with Fig. 1 "Flowchart for Seal Type Selection" on pages E4 and E5. "A Guide to the Allowable Operating Conditions of General Oil Seals" (pages E8 to Ell), as well as Chapter J "Oil and Chemical Resistance Ratings of NOK Lip Materials." 3. Select the Metallic Materials The metallic materials for garter springs and cases should be selected by the appropriate oil seal type, same as lip materials. Table 2 shows the appropriate metallic materials by oil seal type. Please refer to Table 4 "Types and Applications of Garter Spring and Case Materials (page D-7).
4. Select Seal Dimensions Check whether the dimensions of the oil seal you want matches the shaft diameter, housing diameter, and width of the relevant area by refer¬ ring to Chapter H "Type and Size List of NOK Seals."
Please consult us before using NOK oil seals in aircraft or nuclear power equipment. The oil seals listed in this catalog are not designed nor manufactured to be used in medical equipment, and should not be used in medical equipment used for transplant surgeries or in applications that come into contact with bodily fluids or living tissue.
Materials lor the oil seal lips, garter springs, and cases described in this catalog must be selected according to the applicable usage conditions for each oil seal type,
Table 1: Lip Materials by Oil Seal Type Shaft Diameter mm
NOK Type Designation
Lip Materials 31 FH A727 A103 A 104 A795 A134 A941 A571 A989 G418 T302 T303 S728 F585 F548 F129 1
Less than 150
S,T
Greater than 150
-
TCK Lessthan 150
V, K
Greater than 150
TCV
_
TON T4
TCJ
SA1.VAJ, KA3J
D
oo QLFY VR Z
-
SBB MG
.
W
OKC3
MO MOY
-
Table 2: Metallic Materials by Oil Seal Type NOK Type
Material
All types except those listed on the right
SA1J, VAJ, KA3J
Garter Spring
JIS G3521 SW JIS G3522 SWP
JIS G4309 SUS304
Metal Case
JIS G3141 SPCC JIS G3131 SPHC
JIS G4305 SUS304 JIS G4307 SUS304
Fluid Sealed
Shaft diameter (mm)
Oust present
Housing shape
Machine structure
_
Mounted from the shaft end
.
Appl ication conditions
Shaft Operation
Temperature/ Speed
Pressure
Note(1): You may select any oil seal type, other than SA1J, VAJ and KA3J, depending on the type of fluid sealed (brake oil, gasoline, kerosene, light oil, heavy oil, cutting oil, or water or chemical fluid). Please consult us. Note (2): When the housing material is a light alloy or resin having a large coefficient of thermal expansion, select a seal with a rubber exterior. For other housings, you may select either a rubber or metal exterior design. Note(3): When you cannot make a selection from this flowchart for other application conditions (such as vacuum or negative pressure), please consult us.
Air
side
Outside surface
Rubber Exterior
Metal Exterior
VC type
VB type
DC type
TCJ type KC type Oil on both sides
None (Free of oil or mist)
SB type
None
TB type
Muddy water on one side
TCV type
TCN type
! Specially designed oil
j
i
J
Min 0.03 MPa (0.3 kgf/cm2)
seals or mechanical seals are needed. Please consult us.
TC4 type
TB4 type
Fluid to be Sealed: grease or lubricants
-
27 -
E-5
A Guide to Allowable Operating ) Conditions _
(
J
Table 3: A Guide 10 Allowable operating Conditions ot Standard Oil Seals Item
NOK Seal Type"'
S series
Moled i;The working ranges listedarea general
guide based on the general seal shape and material, and may vary with actual working environments or seal designs. For use at higher linear Shaft velocities, higher pressures, or higher/lower temperature regions than shown here, please consult us.
Linear Shaft Velocity (m/s) Use a linear shaft velocity within the permissible range plotted in Graph (1).
~'r
~T?,
Graph (1): Shaft Diameter vs. Maximum Allowable Linear Shaft Velocity
DS SC type
SB type
T series
TB type
TC type
New fabric seal
r TCK type
V series
Shaft diameter (mm) Use a linear shaft velocity within the permissible range plotted in Graph (2).
5
Graph (2): Shaft Diameter vs. Maximum Allowable Linear Shaft Velocity.
VB type
VC type
K series
KB type
KC type TCV type
TCN type
ÿ
A
Shaft diameter (mm)
Use the average normal pressure and average linear shaft velocity within the range plotted in Graph (3). For momentary peak pressure (surge pressure) limits. use the following as a guide. TCV type: 0.3 MPa (3kgf/cm2) TCN type: 0.98 MPa <10 kgf/cm?)
Graph 3: Allowable Operating Rar of TCV and TCN type oil seals
Linear Shaft Velocity (m's)
T4
series •ÿV.
ÿ
,
•
Linear shaft velocity must be 1.5 m/s or less.
(V TC4 type
E-6
TB4 type
28
-
Note (2): The environmental temperature limits will vary depending on the type of rubber, oil. or linear shaft velocities. Generally, the limiting environmental temperature isas specified in the colum "Environmental Temperature! 'C)" in the table below. For details of the allowable operating temperature of various lip materials, see the section beginning on page E-12. Mote(3): For the average operating life of oil seals, refer to Fig. 5 on page J-4. Note(4):For the definitions of shaft-to-bore misalignment and dynamic shaft run-out, refer to Fig. 2 on page E-9.
Pressure (MPa)
Explanation of terms under the column "Environmental Temperature" Maximum Temperature: The temporary peak maximum temperature Maximum Normal Temperature: The maximum temperature within the normal service temperature range. except tor momentary peak temperatures. Normal Temperature: The atemperature at which the oil seal is most frequently use<3. Minimum Temperature: The lowest temporary temperature
Maximum Allowable Total Shaft Run-out Environment Temperature fC) "StafHo-Bcre Misalignment"1-'" : Shalt Dynamic Runout'1""" Total Run-out is expressed as the sum of the shaft-
(1) The maximum pressure limit is 0.03 MPa
to-bore misalignment and shaft dynamic run-out.
(0.3 kgf/cm*). (2) When the lip material is nitrile rubber or fluoro-
carbon rubber and the shaft diameter is less than 30 mm. a pressure higher than 0.03 MPa (kgf/cm2) is allowed. Refer to Graph (4).
_
Graph(4): Maximum Allowable Pressure vs. Shaft Diameter •O
W
\
—
S X =.
2 h2 © =3
5
H5
IU — I1 3
TJ
M 33
3
__
(mm TIR)
(mm)
Note(1): "TIR" means total indicator reading.
# 3
Note(2): Since only the center-to-centeroffset is measured. the total shaft-to-bore run-out is twice as much as the center-to-center measurement.
-30
3
A941
80
70
-25
(Example) Since the permissible total run-out is 0.35 mm TIR for a shaft diameter of 50mm running at 2000 rpm, insure that the shaft-to-bore misalignment is 0.25mm TIR or less H the shaft dynamic run-out is a maximum of 0.1mm TIR.
T303
130
110
-15
Graph(6): MaximumAllowable Total Shaft Run-out vs.Shaft Diameter
S728
150
130
-45
F585
170
150
-15
Si
-
The permissible total shaft run-out vs. shaft diameters is plotted in Graph (6). Make sure that the sum of these off-centers (i.e., the total run-out) does not exceed the permissible range in Graph (6). Total Shaft Run-out = dynamic shaft run-out+fshaft-to-bore misalignment x2]
A727 100
80
Shaft Diameter (mm)
Shaft Diameter (mm)
V and K type oil seals cannot be used where pressure is applied.
Insure that the total shaft run-out is within the permissible range plotted in Graph (7). C
IF 3.
—
S
z
2
hS
Graph(7):MaximumAllowable Total Shaft Run-out vs.Shaft Diameter
3?' 3* 3?3 Ad
n
c O
SI
--
~ :;r
2
£
5
3
?
A727
100
80
-30
A941
80
70
-25
-
>
-
I |
II
#•>
3?
Shaft Diameter (mm)
$ i
z
"O
S
©
cS ©
3
-'
"S 3
3
§2
2 ©
©
c
1
3
A795
70
60
-11
F548
150
120
-16
0.1 mm TIR or less
0.05 mm T R or ess
Use a pressure within the permissible range plotted in Graph (5).
Graph(5): Maximum Allowable Pressure vs. Shaft Diameter
r-
2
x>
-«x
©
3
—
3
3 1 »z
22
*t A795
80
Z
h2
2
H5
S3 s?3 ©
©
3
70
-11
0.2 mm TIR or less
Shaft Diameter (mm)
- 29 -
E-7
A Guide to Allowable Operating Conditions of General Oil Seals Table 4-1 : A Guide to Allowable Operating Conditions of General Oil Seals
Item
Material Family Type
NOK Seal Type
Allowable Operating Conditions
Lip Material NOK Material Code
Linear Shaft Velocity (nVs)
Pressure (MPa)
Graph (8): Maximum Allowable Pressure vs. Linear Shaft Velocity
Acrylic Rubber (ACM)
T302+31BF Linear Shalt Velocity (nVS)
TCJ type
15 or less SA1J type
5 or less
10 or less
A727
IkyrsrJl
DC type
DB type
Acrylic Rubber (ACM)
T303
OC type
70
10 or less
75
2 or less
QLFY type (Unitized seal) Nitrile Rubber (NBR)
VR type (End face seal)
A571
Nitrile Rubber (NBR)
3 or less ZF type
E-8
ZT type
30
figure a: bnatt-to-tiore Misalignment
Shaft Dynamic Run-out
Allowable Operating Conditions Environmental temperature (0)
r-
•d'
2 to
5
Misalignment
The center of shaft rotation is not centered within Ihehousing bore.
m-il
ft Tempr Normal Tempr. Minmu 2
23 ©
A103
Shaft-to-Bore
Total Run-out (mm TIR)
3
w c
c
a
80
Shaft
0.3
80
0.4
70 -22
T302 130 110 -15
The shaft's center ot
rotation is not aligned with the center of the
z *§
r~
T>
2
to
2
if ft
St
3a
a3
to Z to
c
O
3§ 3
3
31
31BF 200 180 -50
r~ T>
2 3 to to
1
3
60
-30
£ 3 c 3 3
A727
80
T303
too
"5"
II
HZ2
lp.
St| si 81
Materil
0.15
40
0.25
0.3
200
0.35
Shaft diameter (d)
Total run-out 0.3
40
shaft.
0.2
0.5
Tempratu Minmu
Shaft diameter (d)
Total run-out
80 -30
0.4
80 -15
'§
lis. 5 ÿli II 3 Si c
to
a
©
A727 100
Lip
c
Total run-out
40
a to
©
£3
Shaft diameter Id)
a
0.25
40
0.3
80
0.4
120
0.5
HZ a o
III - — s! if Si S3 c
c
3
c
3
3
A571
80
ÿo'
3ÿ2
0.35 or less
C
3
70 -25
3°| If 3*? 3 3
Sw * 1 Pi |i 13
13
3'
<0
A 134 F129
80
70 -20
150 120 -15
3*2
ÿo" to
to
A103
lip S 3 5 to
i3 80
a
3' 5c K 3 |
0.3 or less
70 -22
31
-
E-9
A Guide to Allowable Operating Conditions of General Oil Seals Table 4-2: A Guide lo Allowable Operating Conditions of General Oil Seals
Allowable Operating Conditions
Item
Material
NOK Seal Type
Pressure (MPa)
Family Type
SBB type
Large-diameter SB type 80
15 or less
Large-diameter TB type
Lip: A103 ixtetiorSuface:!
MG type
A992
I
(90)
Cannot be used where pressure is applied.
W series
WTtype
0KC3 type
25 or less
MOX type
MOD type
MOY type (Mesela seal)
(70)
MOY2 type
E-10
- 32
25 or less
Figure 2: Shalt-to-Bore Misalignment and Shaft Dynamic Run-out
Allowable Operating Conditions
Environmental temperature ( C)
Total Run-out (mm TIR) Shalt diameter (d)
c
"O
1 a.
1-3 —
A941
80
c
-5
K 3
1
E
Total run-out
300
0.4
500
0.6
17=
700
0.8
1200
1
Tempratu Normal Tempratu Minmu
Shaft dameter(d)
Total run-out
70 -25
300
0.6
500
1.0
630
1.6
I000
2.2
Shaft-to-Bore Misalignment The center of shaft rotation is not centered within the housing bore.
Shaft Dynamic Run-out The shaft's center of rotation is not aligned with the center of the shaft.
0.2 or less
r.
Tempratu
1 ill Normal 15 ||3
A103
n "O
®
E.
70
80
•
A104
c i
9> 3 c
3
-22
-21
HZ
III s 1
?2 "? m
-ÿ
1 |3
c
3
A989
3
80
3 3 70 -25
2.5D/1000 D = oil seal outer diameter (mm)
ÿ
r
•6
HHS
m-c
— —
2 3 3. 3
<0
o 3
ÿo
E~ E 3 3 3 G418 110 90 -25 3
3
3
33
-
E-11
ÿAllowable Temperature Range Pages E-7 through li-12
A suitable lip material needs to be selected based on the temperature of the seal lip edge and the type of sealed fluid, and it is necessary to select a material within the upper limit of the maximum allowable temperature (7) for the lip materials shown in Table 5 on page E-15.
describe the allowable
temperature ranges for various lip materials. Note that the actual temperature limitations may vary in accordance with such factors as the type of fluid sealed or usage time. Therefore, it is necessary to consider these factors when selecting a lip material.
The permissible temperature of a lip material varies with the operating conditions of the actual equipment used.
Temperature limitations for the Slype oil seal, which is a typical oil seal, are summarized for your reference. Please note that the temperature at (he lip of the T type seal rises twice as much as the S type, and that the temiierature rise of the V and K types is the same as that of the S type.
Table 5 shows an example in which the usage time at
the maximum normal temperature is within 30% of the total operating time. Titus, if the working time at the maximum normal temperature exceeds 30% of the total operating time, reduce the permissible temperature (T) by 20 "C.
To select the proper lip material for an oil seal, it is necessary to estimate the approximate temperature at the seal lip edge of the oil seal (To). This temperature can be estimated by determining the maximum normal temperature of the fluid near the oil seal (Ti), and the increased underlip temperature generated by the friction between the shaft and lip (73 (Refer to Fig. 3.) The temperature at the sealing edge (To) can be given by the expression (1) below.
For gear oil or high-viscosity silicone oil, the frictiongenerated heal at the lip (71') is 1.5 times the value shown in Fig. 3. For grease, the friction-generated heat at the lip is 3 times that shown in Fig. 3.
.
To = 77 + T2
(1)
To :Temperature at the seal lip edge Tr : Temperature of sealed fluid nearest to the oil seal (maximum normal temperature) TV : Friction-generated heat
Figure 3: A Guide to the Friction-Generated Heat at the Seal Lip (S type)
E Conditions: Fluid Sealed: Engine oil (SAE #30) Oil quantity :To Mid-Shaft Level
OOOrpm
3000rpm
/
s
--
1500pm
50Opm
/J
20
40
60
80
too
125
150
175
Shaft diameter (mm)
200
225
250
275
300
Example 1 An SC-type oil seal was selected based on the working conditions shown on the right. Now, let's select a proper rubber material. (Selected 3000 rpm from the graph in Fig. 3.)
40
Description
Item
Shaft Operation Rotating Installation Oil seal can be installed from shaft end Fluid to be Sealed Engine oil (SAE #30)
Pressure Dust
0.03 MPa (0.3 kgf/cm*) or less
Shaft diameter
50 mm
Shaft speed
3000 rpm
None
so CP Shah diameter (mm)
....
What is the sealed fluid and the normal operating temperature? Type of fluid sealed Maximum normal temperature of fluid Percentage of time at the maximum normal temperature
Engine oil (SAE #30)
80"C
Approx. 50% of the total working time
What is the approximate temperature at the sealing edge? Maximum normal temperature based on conditions Friction-generated heat at lip Temperature at the sealing edge
Ti = 80"C 7i= 13"C (Read out from Fig. 3.) To*Ti + Tz SOT * 13C 93"C ÿ
-
What is the sealed fluid and the normal operating temperature? What lip material can be used in view of the temperature and the fluid sealed? The maximum time the oil seal can be used at the maximum normal temperature is approximately 50% of the total working lime, and the permissible temperature for the lip material in Table 5 is
r-20°C. Based on the above, the desirable value is T 20 > To From a calculation viewpoint, it becomes T > 7<*20. Substitute the figures in this equation to obtain
—
.
T>93+20-113"C.
Checking these results against the column
"Types of Fluid to be Sealed" (in this case. engine oil SAE #30) in Table 5. and therefore nitrile rubber (A727) can be selected.
(Exam|jle2) An SB-type oil seal was selected based on the working conditions shown on the right. Now, let's select a proper rubber material. (6000 rpm was selected from the graph in
Description
Item
Shaft Operation Rotating Oil seal can be installed from shaft end Installation
Fig. 3.)
Fluid to be Sealed Hypoid gear oil (SAE #90) Pressure
0.03 MPa (0.3 kgf/cm') or less
Dust
None 75 mm
Shaft diameter Shaft Speed
20
40
60
100
75 80
Shaft diameter
125
6000 rpm
150
(mm)
What is the sealed fluid and the normal operating temperature? Type of fluid sealed Maximum normal temperature of fluid Percentage of time at the maximum normal temperature
• Hypoid gear oil (SAE#90) •90C Approx. 20% of the total working time
ÿ
ÿ
. . .......
What is the approximate temperature at the sealing edge? Maximum normal temperature based on conditions Friction-generated heal at lip
Ti 90 C 71'= 27 C (Read out from Fig. 3.) increase by 1.5 limes due to gear oil use.
71' =27 X 1.5 = 40'C
Temperature at the sealing edge
•
7»= Ti + 75 = 90 'C + 40"C = 130"C
What lip material can be used in view of the temperature and the fluid sealed? Since the time the oil seal will be used at the maximum normal temperature is only approximately 20% of the total working time, the upper limit of the permissible temperature for lip materials in Table 5 is to be used.
In other words, when you substitute 130 C in To in T> To
.
Check this result against the column "Types of Fluid to be Sealed (hypoid gear oil) in Table 5 to select acrylic rubber T303.
Note that since To = 130VC is the upper limit of the permissible temperature for acrylic rubber, you must select the lip material immediately above, i.e.. fluorocarbon rubber (F585).
you obtain T> 130'C .
E-14
- 36 -
If the usage time at the maximum normal temperature exceeds 30% of the total working time, reduce the allowable temperature by 20'C (T-20"C)
Table 5: Allowable Operating Temperature Ranges ot Various Lip Materials in S-Type Oil Seals Types of Fluid to be Sealed
Allowable operating temperature of the lip material (maximum temperature) T('C) 4050
60
70
80
90
100
110
120 130 140 150 160 170 180 190 200
SAE830 SAE10W-830 Vehicles
Torque converter oil Automalic transmission fluid
DOT 3 (glycol base)
Brake Fluid
DOT 5 (glycol base)
Styrene-butadiene rubber j Ethylene-propylene iiwmi rubber •
DOT 5 (silicone base)
Turbine oil
A727
Class 2
A941
Machine oil (No.2 spindle oil)
A941
A727
Hydraulic fluti(mineral oil base)
A941
Mineral oil based
A941
Silicone based
A941
Fluorine based
A941
A727
E
Gasoline (F384)
Light oil, kerosene (A795)
Note (1): Only the maximum value of the allowable temperature is used. Note (2) ;The heat resistance of the fluid sealed must be greater than the lip material's resistance. Note (3) :A727 (for a shaft diameter of 150 mm or smaller) and A941 (for a shaft diameter of 150mm or larger) are standard materials. Note (4) :The lip materials shown in parentheses are NOK's non-standard
materials. Note (5): For sealing solutions not shown in the table, see pages J-7 through J32. Note (6): The cost guide for each material is shown on the right. Note (7): For water-based hydraulic fluid (water + emulsion base or water + glycol base), synthetic fluid based grease, and other oils (ester oil, glycol oil), please consult us. It is necessary to confirm that these oils are suitable for use.
Lip Material Type Nitrile rubber
Cost
Less expensive
Acrylic rubber
Silicone rubber Fluorocarbon rubber Tetrafluoroethylene resin
(PTFE)
More expensive
Housing and Shaft Design Guide
ÿShaft
F-2
1. Shaft Design Specifications. Chamfer Properties
F-2
F-4 ÿ Housing F-7 1. Housing Design Specifications F-7 F-8 2. Housing Bore Configuration 2. Shaft Design Concepts
3. Housing Design Concepts
F-14 -
F
39
-
F-1
F. HOUSING AND SHAFT DESIGN GUIDE This section describes the design specifications for the shaft and the housing whereoil seals are installed. Table 1 shows reference table numbers and page numbers for the design specifications for shafts and their chamfered ends, as well as for housings and their respective chamfers, arranged by oil seal type.
Table 1: Page Directory to Shaft and Housing Design Specifications by Seal Type
llem
NOK Seal Type S type, T type, V type, K type, SBB type, TCV type, TCN type, T4 type, Large-diameter SB type, Large-diameter TB type J type, D type, OLFY type Design
Shaft
Housing
specifications Chamfer specifications Design specifications
Chamfer
specifications
MG type
Table 2 on page F-2
Table 4 on page F-3
Table 3 on page F-3
Table 6 on page F-8 Table 7.'8 on page F-8. 9
Table 9 on page F-10
Table 3 on page F-3 Table 10 on page F-11
OC type, OKC3 type Table 11 on page F-12
VR type, Z type Table 12 on page F-13
Table 11 on
page F-12
Nole : Please consult us regarding the design of the shaft and housing for W type. MO type, and MOY type oil seals.
ÿShaft 1. Shaft Design Specifications, Chamfer Properties Table 2 shows shaft design specifications, and Tables 3 and 4
show the shape and size of the required shaft chamfers. Table 2: Shaft Design Specifications
NOK Seal Type Specification item
Shaft Material Surface hardness Surface roughness
Machining method
S type, T type, V type, K type, TCV type, TCN type, D type, SBB type, Large-diameter SB type, Large-diameter TB type, MG type
T4 type
J type
OLFY type
Carbon steels tor machine structural use
Min. 30 HRC
Min. 50 HRC
Min. 30 HRC
(0.32~0.1)pm Ra
(2.5~0.8)pm Rz
Plunge ground
(0.2~0.05)|rmRa (1,6~0.4)pmRz Alter heat treatment. plate with hard chrome before
Sa i! Lathe cut
final polishing.
Dimensional tolerances
JIS h9
Note (1): To use oil seals with a silicone rubber lip, finish the shaft surface roughness al 1.6100.6 I'm Rz. Note(2): For delails on shaft machining, refer to "Proper Shaft Machining Methods" on page F-5.
F-2
JIS h8
Table 3: Shalt Chamfer Design (for shafts up to 300 mm in diameter)
Units: mm
"ÿ\NOK Seal Type
S type, T type, V type, K type, TCV type, TCN type, T4 type, Shaft diameterÿ\ÿ D type, MG type, VR type, Z type
OLFY type
J type
Shaft diameter d
di
Up to 10
d-1.5
d-3.5
Over 10 to 20
d-2.0
d-4.0
Over 20 to 30
d-2.5
d-4.5
Over 30 to 40
d-3.0
d-5.0
Over 40 to 50
d-3.5
d-5.5
Over 50 to 70
d-4.0
d-6.0
Over 70 to 95
d-4.5
d-6.5
Over 95 to 130
d-5.5
d-7.5
Over 130 to 240
d-7.0
d-9.0
Over 240 to 300
d- 11.0
d-12.0
-
d-1.5
d-2.0
The diameter di in the table is less than the inside diameter of the sealing lip. Remember that a correct seal installation neither damages the sealing lip nor detaches the garter spring. Be sure to conform to the relevant size shown in the table.
ÿe-
li Po.z~~t>Qt>y
Table 4: ShaftChamfer Design for SBB type, large-diameter SB type and large-diameter TB type 01Seats(for shafts over 300 mm in diameter) Units:mm
NOK Seal Type
SBB type. Large-diameter SB type, Large-diameter TB type
Shaft diameter Shaft diameter d Over 300 to 400 Over 400 to 500
~
—
JU
1
Over 500 to 630
2
Over 630 to 800
•O
Over 800 to 1000 Over 1000 to 1250
A!
B2-R5
//
1
f\
LA
/
Over 1250 to 1600 Over 1600 to 2000
F-3
2. Shaft Design Concepts The material, hardness, and machining method of the shaft has a significant influence on the performance of the oil seal. Design specifications for the shaft need to be determined after careful examination of all relevant
factors. (1) Shaft Material Steels for machine structural use, are suitable. However in case of cast iron or plastic, refer to Table 5 "Notes on Usage" before selecting one of these materials.
(2) Shaft Hardness The surface of the shaft with which the sealing lip of an oil seal comes into contact needs to be at least 30 HRC for the following reasons: 1. The shaft surface will nol be easily scratched or dented. 2. An appropriate surface finsih can be easily
machined. 3. The shaft (especially a hollow shaft) will nol deform easily.
Dents are easily overlooked, however, and ilis impor¬ tant to take care that the shaft is nol damaged by conlad during shipping and assembly. Table 5: Notes on Usage
Shaft Material
Notes on Usage
Cast Iron
Pinhole porosity is likely to appear in cast iron shafts. II the size of the pinhole is larger than 0.05 mm, and the seal lip rides in or around this pinhole, leaks may occur. This is due lo a localized and rapid loss of shafl contact to the seal lip. If cast iron shafts must be used, NOK recommends using nodular graphite casl iron shafts.
Plastics
Ceramics
NOK does not recommend using plastic shafts. II is difficult to insure proper hardness
and surface finish, and heat dissipation is poor due to low heal Iransfer qualities.
Although ceramic shafts may be used in chemical equipment, ceramic shafts are not recommended for use with oil seals. The unique surface roughness of ceramics accelerates seal lip wear, significantly reducing the life of the oil seal. Consult us before using ceramic shafts.
For use with J type (PTFE) seals, the shaft surface under the seal lip needs to be as hard as 50 lo 60 HRC, as the J type oil seal is more likely lo increase wear on the shaft compared to other oil seals. The J type oil seal is used for fluids with poor lubricity, such as chemicals or solvents, and in high temperature areas or under poor lubrication conditions. Therefore, a shaft with a hardness of only 30 to 40 HRC will quickly wear out.
(3) Shaft Finish and Machining Method Generally, the shaft roughness directly affects the degree of seal leakage and wear (this varies according to shaft speed and oil quantity) regardless of the shaft hardness. Therefore, it is important to use shafts with the surface finish roughnesses listed in Table 2. For rotating shaft oil seals, special attention is needed. If machining flaws run continuously along the shaft, leaks may occur even if the surface roughness of the shaft is within a range of 2.5 to 0.8mm Rz (excluding
T4 type and QI.FY type oil seals).
F
The following section discusses proper and improper machining methods (i.e., introducing machine lead onto the shaft through poor machining practices).
Proper Shaft Machining Methods Ground Finish Plunge grinding produces non-continuous machining striation markings that are at right angles to the shaft centerline, as shown in the photograph on the right. This is the optimum finish technique for best seal lite and performance. After plating with hard chromium to improve resistance to corrosion and wear, be sure to plunge-grind the final surface.
Shalt surface Shaft centerline
is
•i?
lillliii
Hal JH'Mvllfii
r. i..ifiMiHwiiin Roughness Trace
Emery Paper Finish (a finishing methodthai does not involve moving the paper axiallyj
Emery paper finishing without axial movement pro¬ duces non-continuous machining striation markings that are at right angles to the shaft centerline, as shown in the photograph on the right .
This "plunge" action surface is therefore also very suitable for oil seals. Note that excessive force 011 the paper may produce deep scoring on the shaft.
7- How to
Shaft surface Shalt centerline
Roughness Trace
-r-
—
J
'
—I—
Minimize Shaft Wear * When the oil contains high levels of silica or alumina, shaft wear can be reduced by changing the oil at appropriate intervals. In addition, hard chromium plating of the shatt or using hard chromium plated sleeve shafts is recommended.
A shaft may experience wear even it it is treated via induction or carburizing hardening processes. This is primarily due to dust, earth and sand, or silica (Si02) or alumina (AI203) contained in deteriorated oil. These minute foreign particles can enter into the contact area of the sealing lip either from the air or oil side. To protect the shaft from wear caused by particles from the air side, NOK recommends using a dust seal together with an oil seal, or selecting an oil seal with higher dust resistance.
p Grindstone Dressing
-
— ---ÿ
ÿ
Take care when dressing the grindstone for plunge ground finishing. If the grindstone incurs directional lead during the dressing, the lead will transter to the shatt. NOK recommends roller dressing. If single-point dressing is unavoidable, use a slow feed rate and be sure to spark-out during grinding.
- 43 -
F-5
Improper Shaft Machining Methods Lathe Cut Finish lathe finishing is very distinctive: a roughness curve shows continuous rows of well-shaped triangular peaks and valleys spiralling around the shaft. These spiral valleys can continue from the inner side of the oil seal, through the sealing lip contact area, and to the air side, causing sealed fluid to leak through the valleys via a
Shaft surface
Shaft centeriine
I! i
.
"screw-pump" action.
Super-finishing
Super-finishing creates a herringbone-like texture, and reduces roughness compared to other finishing meth¬ ods. However, this texture also causes seal leakage through the presence of machine lead, which can over¬ power a seal and pump oil to the air side. in some cases, this herringbone-like texture can cause premature wear on the seal lip.
Roller Burnishing Roller burnishing is generally performed after a lathe cutting operation. The burnishing will not remove the substrate machine lead produced by the lathe, which could cause leakage. Roller burnishing is also prone to producing a loo-smooth finish, causing the oil film to become too thin, resulting in increased friction and premature seal wear.
Shalt surface Shall centeriine
Shalt centeriine
-
Emery Paper Finishing
After lathe machining, finishing the surface with emery paper is the easiest and most widely accepted method. However, finishing by moving the emery paper axially produces a herringbone lead texture, causing leaks to occur (similar to super finishing).
-v
Shaft surface
Roughness Trace
(With axial oscillation)
—
r"*v
Shall surface
Shall centeriine
Roughness Trace
- 44 -
--
—
: |-
r
|
—1—
1—
r
ÿ Housing (4) Shaft Chamfer If there is a sharp corner at the shaft's end, the seal lip will bo damaged when the oil seal is installed over the shaft, thus causing a leak. Also, if the shaft is not prop¬ erly chamfered, the sealing lip might get caught on the corner as shown in Fig. 4, causing lip "turn-under" and possible garter spring ejection. Therefore, the shaft should be properly chamfered as shown in Tables 3 and 4.
Figure 4: Lip "Turn-Under" and Garter Spring Ejection
The housing is the area where a bore recess can receive and retain a seal. Table 6 shows the most desirable design characteris¬ tics for housing bores, and Tables 7 and 8 show the shapes and sizes of various housing bores.
1. Housing Design Specifications Design specifications for housings are shown in Table 6. Refer to Table 10 for MG type, Table 11 for 0 type, and Table 12 for VR and 7. type oil seals. 2. Housing Bore Configuration The shape and size of a housing bore needs to be determined according to the type and size of the oil seal to be used. Design a housing bore based on the following:
(1) Standard Oil seals
For standard oil seals (with shafts up to 300 mm in diameter), the shape and size of the housing hole varies depending on the pressure in the application.
Shalt Inserted This Direction
Non-Pressurized Applications (Ma*. 0.03 MPa (0.3 kgl/cm*)
The shapes and sizes of housing bores in non-pressur¬
ized applications are shown in Table 7. (5) Shaft Key Ways and Splines
Even if the shaft is properly chamfered per Tables 3 and 4, the seal lip may be damaged if there is a key way or spline on the shaft surface which the lip contacts during installation.
Figure 5: Cover Design for Key Ways or Splines
Round to 0.3
If a key way or spline must be used on the shaft surface that will pass under the seal's lip during installation, make the nominal diameter of the key way or spline 5 to 15mm smaller than the diameter of the shaft's seal journal so that a cover may be used, as shown in
or chamter
Figure 5.
(6) Miscellaneous If a shaft's bearing journal is the same diameter as the shaft's seal journal, the shaft will be scratched from bearing installation, and thus cause a leak path under the seal lip. Instead, design the shaft's bearing journal to be larger than that of the seal journal, thus avoiding shaft damage in the critical seal lip area of the shaft
- 45 -
XROS—R1.0 (Shatt)
/
"0.3
•
R2
(Cover)
F-7
Table 6: Housing Design Specifications NOK Seal Type
Specification item
S type, T type, V type, K type, TCV type, TCN type, T4 type, J type, SBB type, Large-diameter SB type, Large-diameter TB type, D type, QLFY type Metals with Low Thermal Expansion Coefficients (Example: Carbon steels for machine structural use)
Housing Material
——
(3.2- 0.4)/i m Ra
Metal OD oil seal Bore ID surface roughness Rubber OD oil seal
(12.5
1.6)/im Rz
(3.2 1.6)/im Ra (12.5- 6.3)/i mRz
Nominal size: Dimensional 400 mm or smaller Nominal size: tolerance 400 mm or larger
JIS H8
JISH7
Table 7: Housing Boies for Non-Pressurized Applications
B
~
% ?l
w,
R03-R0.5
Minimum size otw.
W-
I,
B
Minimumsize of W?
1.0
Over 6 to 10
1.5
b +0.5
c.o
.
Units: mm
Units: mm
Up to 6
2.0
Over 14 to 18
2.5
b+1.0
Nominal outside diameter of oil seal (D)
K
Up to 50
D-4
Over 50 to 150
D-6
Over 150 to 300
D-8
b+1.0
Over 10 to 14
Over 18 to 30
ROS—R0.5
2°3Cr/'ÿ\
"T
Housing bore size
Nominal width of oil seal (b)
B0.3--HO.S
b+2.0
3.0
- jfi
-
Pressurized Applications (0.03 MPa (0.3 kgf/cm*) or higher)
The housing bore designs to be used in the presence of internal pressure are shown inTable 8.
Table 8: Housing Bore Design tor Pressurized Applications 0
©
R0.3-~rai.il
Threaded hole fcr seal removal'
Snap rirg
/
Pressure p(aie
It a snap ring must be used, round (blend) the housing grooves.
Housing bore size
Nominal width
of oil seal (b)
Units: mm
Wt
B
Pressure plate size Nominal outside diameter ot oil seal (D)
Units: mm K
Minimum plate thickness t
Over 6 to 10
h o +0.5
+0-3
1.5
Up to 50
d+3
3
Over 10 to 14
h +°-4 D
+0.6
2.0
Over 50 to 120
d+4
5
Over14to 18
h +a5 D +0.8
2.5
Over 120 to 250
d+5
8
Over 18 to 30
h +0.9 D
+a6
ao
Over 250
d+6
10
- 47 -
F-9
(2) General Oil Seals For general oil seals, design the housing bore based on the following.
The shape and size of housing holes for SBB type. large-diameter SB type, and large-diameter '111 type oil seals are shown in Table 9.
Table 9: Bore Oesign tor SBB type, large-diameter SB type, and large-diameter TB type (shaft over 300 in diameter) oil seals
Housing design specifications Units: mm Nominal outside K diameter ol oil seal (D) Over 300 to 400 0-10
Over 400 to 500
no a-wi s 20-»
Over
500 to 630
Over 630 to 800 D-12
Over 800 to 1000
Over 1000 to 1250 Over 1250 to 1600 0-14
Over 1600 to 2000
Units: mm
Housing bore size Nominal width of oil seal (b)
W.
Up to 6
Over 6 to 10
1.0 1.5 b+05 2.0
Over 10 to 14 Over 14 to 18
Over 18 to 30
F-10
B
2.5
b+1.0
3.0
MG Type Oil Seal Design specifications of the housing bores for MG type oii seals are shown in Table 10. Since no reinforcing metal case is used in an MG type oil seal, the seal is installed by cutting the seal at one point and butt-jointing the cut ends, which makes it difficult to obtain the proper retention strength.
Therefore, the housing bore must be designed so that the oil seal sits at the correct position and is secured by pressure from both sides.
Table 10: Housing Bore Design Specifications for MG Type Oil Seals Housing design specifications
Item
Housing Material
Bore Inner Diameter Surface Roughness
Units: mm
Housing bore size
Nominal width of oil seal (b)
Specifications
Metals with low thermal expansion coefficients (Example: Carbon steels for machine structural use) (3.2- 1.6)/im Ra (12.5~6.3)ÿm Rz
Method
Up to 6
Over 6 to 10 Over 10 to 14
Machining
w
B
b"0'1 —0.2
1.0
-0.1 —0.3
2.0
b"01 —0.4
3.0
-0.1 —0.5
4.0 5.0
i_
f?
JIS H8
Over 14 to 18
8 5' 400mm or larger
JIS H7
Over 18 to 30
b-0.1 —0.6
Over 30
i_
400mm or smaller nominal outside diameter S| 9L nominal outside diameter
Housing bore, pressure plate, and mounting bolt Nominal outside diameter of oil seal (D)
C
thickness
Up to 50
d+8
3
50 to 125
d + 10
5
Over 125 to 315
d+ 18
10
d+25
15
Over
t
-0.1
—0.7
6.0
Units: mm
Pressure plate Minimum plate
u
K
Mounting bolt Size
Quantity
d+3
M6
4 (equally spaced)
d+5
M8
d+8
M10
Mounting BOH
4 (equally
spaced)
6 (equally spaced)
Over 315 to 400 Over 400 to 500 Over 500 to 630
8 (equally spaced)
d+12
M12
Over 630 to 800 d + 28
18
d+30
20
12(equally
\R03-R0.5
spaced)
Over 800 to 1000 Over 1000 to 1250
Over 1250 to 1600
d+15
M16
16(equally spaced)
Over 1600 to 2000
49
F-11
OC and OKC3 Type Oil Seals Tlic sealing lip of an OC type oilseal comes inlo conlacl with the inner surface diameter of the housing bore. while the sealing lip of an OKC3 type oil seal comes into contact with the inner diameter surface of the shaft flange. The machining methods for these inner diameter surfaces and the surface roughnesses are shown in Table 11.
--
Units: mm
Table 11: Housing and Shatt Design Specifications for OC and OKC3 Type Oil Seals
-
ltemN
Classification Shaft design specifications Housingfinner diameter surface) design specifications SealType OC type OKC3 type OKC3 type OC type
Housing Material
Carbon steels for machine structural use
Surface hardness
Min. 30 HRC
(!2.5~6.3)/
(0.4 ~ 0.2V m Ra (3.2— 1.6Vm Rz
(0.8— 0.4Vm Ra (6.3— 3.2Vm Rz
Machining
Plunge ground Machining
Machining
(3.2~1.6VmRa
Surface roughness Method
|S
s1 8g
ÿ
§
Nominal size: 400 mm or smaller Nominal size: 400 mm or larger
JISh8
JIS H9 JISh7
Shape and size of housing bore (inner diameter surface) OKC3 type
OC type
&
) 15'—25"
I l!
FO.3-yRO.S_ 1.6/
'2ff~3
* fIs-
R03~R0.5
Nominal width of oil seal (b)
W.
D
Up to 6
1.0
Over 6 to 10
1.5
Over 10 to 14
b+0.5
Over 18 to 30
2.0 2.5
Over 14 to 18
F-12
1
e. \ f&
b+1.0
50
3.0
\R03~FQ5
d.
d+10
VR and Z Type Oil Seals Design specifications for the shafts and housings of VR and 7. type oil seals are shown in Table 12.
Table 12: Shaft and Housing Designs for VR and Z Type Oil Seals
''NÿÿÿCIassification Item
Housing design specifications
Shaft design specifications
SeaTType
VR type '1'
Z type
VR type
Z type
Carbon steels for machine structural use
Housing Material
No requirement
Min. 30 HRC
Surface hardness
—
(3.2 1.6)//m Ra (12.5- 6.3)// m Rz
Surface roughness
—
(0.4 0.2)// m Ra (3.2— 1.6)//m Rz
Method
(1.6 (6.3
——
0.2)// m Ra
(0.8— 0.2)// m Ra (6.3— 1.6)//m Rz
0.8)// m Rz
Machining
S*The housing roughness specification for the VR type seal is only required where the seal lip contacts the housing axially
Mating Face Design
Housing Bore (inner surface diameter)
VR type
Z type 14' ±1* 3 it C7 O
_
?!
ÿ
\
B
d?
Shaft diameter di Up to 3 Over 3 to 10
3.0=0-4
Over 10 to 20
4.5 206
2.5=03
Over 20 to 40
6.0 =0«
Over 40 to 70 Over 70 to 110
7.0 21 9.0 2,2 1,5
d+1
d +2 d+3 d+4
if
° E8
3
.
d3
t
Shaft diameter d
d.
1.5
Up to 20
d+6
2.0
Over 20 to 60
d+1.5
d +9
3.0
Over 60 to 110
d+2.0
d+12
4.0
Over 110
d+3.0
d+15
5.0
d + 18
6.0
d+4
Over 110 to 160
10.5*
d +21
7.0
Over 160 to 200 Over 200
12.0='*®
d+5
d+24
8.0
20.0 230
d+10
d+45
15.0
Groove width a Up to 3
Over 3 to 6 Over 6 to 10 Over 10 to 18
d + i.0
Dimensional tolerance
+0.14 0
+0.18 0
+0.22 0 + 0.27 0
F-13
3. Housing Design Concepts The material. roughness. size, and shape of the hous¬ ing bore will affect the performance of the oil seal. Determine the design specifications after careful con¬ sideration of these factors. (1) Housing Material For steel or cast iron housings, use either rubber OD or metal OD seals. Since light alloys or resins generally have high coefficients of thermal expansion, the size of the housing hole increases as the temperature increases. For metal OD oil seals, leakage may occur in the press-fit area, or the seal itself may become dislodged. If light alloy or plastic housings must be used, use rubber OD
(4) Housing Bore Design If excessive weight or pressure is placed on the oil seal, it may become dislodged. No special care is needed if there is no inner pressure on the oil seal (max. 0.03 MPa (0.3 kgf/cm-'). In applications where the pressure is 0.03 MPa (0.3 kgf/cm-) or larger. design the housing so that it secures the oil seal axially. The shape and size of the housing bores are shown in Table 8 on page F-9. You can select either configu¬ ration O or 0 in the table. Configuration © allows easy installation and removal of the oil seal. If a snap ring must be used, round (blend) the snap ring groove edges of the bore as shown in ©.
seals. (2) Surface Roughness of Housing Bore (inner diameter surface) Oil seals prevent leakage by maintaining contact between the sealing edge and shaft and also by obtaining a proper fit to the bore. Thus, care is needed when machining the housing hole. A very rough inner housing surface will create a leak path past the seal. Refer to Table 6 on page F-8 for pro|>er roughness levels.
(3) Dimensional Tolerances of Housing Bores At NOK. we define outside diameter tolerances for oil seals based on J IS H8 for oil seals with 400 mm or smaller nominal outside diameters and J1S H 7 for oil seals with 400 mm or larger nominal outside diameters.
IfJISII8or JISH7 standards are not used, seal installation be difficult, cause damage, or even fail to be retained during operation.
(5) Split-Typo Housing Avoid using a split-type housing for the following rea¬ sons:
© Leakage may occur from the split line area.
® Seal displacement may occur at the split line area.
® it may be difficult to ensure proper roundness of the housing bore.
©
Misalignment may occur between the shaft and
housing hole. Items © and @ result in leaks at the split line area. and item © results in leaks at the sealing lip. If a split-type housing must be used, machine the hous¬ ing so that it does not misalign and become ovalshaped. and then use a rubber OD seal in the preassembled housing.
may
Figure 2: SpM-Typo Housing
spM sections, then inset oil seal.
O-i
F-14
- 52 -
(6) Improper Housing Bore Designs Figure 3 illustrates two improper housing designs. For case O, since stamped steel is used, the hole sur¬ face is apt to be tapered and the inside diameter or roundness will vary, causing the oil seal to leak or even
become dislodged. For the housing design in 0. the housing may be installed off-center, as it uses a combination of screws. Do not usea screwed-in housing.
Figure 3: Improper Housing Bore Designs
OStamped-steel housing
©Screwed-in housing
F
- 53 -
F-1S
Seal Handling Guide
ÿSeal
Handling Guide-
-
G-2
G-2 G-9 2. Handling NOK's General Oil Seals I. Handling NOK's Standard Oil Seals
G
G. NOK OIL SEAL HANDLING GUIDE Even if you correctly designed or selected the shaft and housing into which the oil seal is installed, rough handling or assembly of the oil seal may result in the oil seal being unable to function as intended. This chapter discusses proper handling of oil seals during assembly and replacement. Before using an oil seal, read and follow the rele¬ vant instructions.
ÿHandling NOK's Standard Oil Seals Use the following as guide to proper seal handling.
1. Packaging Oil seals are packaged in bags, rust-preventing paper. or corrugated cardboard boxes, depending on the size or quantity, lite packaging is necessary to protect the oil seal against rust, damage, and foreign matter. Only open the package immediately before use. 2. Storage (1) Storage Precautions Follow these instructions when storing oil seals. O Do not open the package until needed, as the oil seals may become contaminated or damaged. 0 Do not expose the oil seal to direct sunlight for extended periods of time. Ultraviolet rays may has¬ ten the deterioration of rubber. ©Do not place the oil seal in locations where it may be exposed to excessive moisture. Rust can form on the external metal or garter spring of the oil seal. ©Do not place the oil seal near heal sources, such as a boiler or stove. Heat accelerates the deterioration of
3. Protect the Shaft and Housing Take care not to damage the shaft and housing before assembly, as leaks may occur. Use a carrying jig to prevent the finished surfaces of the shaft and housing from contacting other objects, as indicated below. Figure 1shows a storagejig for housings. Each housing is placed so that it leans against individual partitions to prevent damage. This jig is made from plastic to prevent the metal part from being scratched. Figure 12 shows a storage/transport cap jig for shafts. Placing this plastic cap over the shaft prevents the shaft from beingdamaged. Figure 1: Housing Storage Jig
Housing Storage Jig
Figure 2: Shaft Storage Jig
rubber.
©Avoid hanging the oil seal on nails or steel wires, or
Storage Jig
dangling the oil seal using a cord. The oil seal may be deformed, or its sealing edge may be damaged. ©When storing the oil seal after opening its package. take care to protect it from rust, as well as foreign particles such as dust and sand. ©Avoid excessive shock during handling or transit to prevent deformation of the oil seal or dislodging the garter spring.
(Plastic Cap)
(2) Storage Time The table below shows the maximum shelf life of properly stored oil seals.
100% Rubber
Products
Material Nitrile rubber (NBR) Acrylic rubber (ACM)
Silicone rubber (VMQ) Fluorocarbon rubber (FKM) Nitrile rubber (NBR)
G-2
Rubber/Metal
Acrylic rubber (ACM)
Bonded Products
Silicone rubber (VMO) Fluorocarbon rubber (FKM)
Shelf Lite 10 years 20 years
20 years
20 years 10 years 10 years 10 years 10 years
•The storage periods shown on the left are applicable to products sealed in standard packaging and stored in a cool dry place away from direct sunlight. • The indicated storage periods do not account for rust formation on the metal jwrts of bonded seal products, since rust is largely influenced by the storage environment. • Before using an oil seal that has been kept in storage for an extended period of time, check that it is free from rust. • A white powder may api>car on the surface of rubber products (known as "bloom phenomenon" ). This does not affect oil seal performance.
— 56
—
4. Preparation Before Assembly (1) Oil seal
ODo not use an oil seal that has dust or sand on it, as leakage may occur.
0 Do not scrape the sealing edge of the oil seal with nails or other hard objects. The sealing edge is the most important part in determining oil seal perfor¬
mance.
© For an oil seal having two or more lips, such as the T type and K type oil seals, apply mineral based lithi¬ um grease (for example, Sealube SI made by NOK) betweenthe lips to lubricate the lips. (See Fig. 3.). 0For an oil seal having only one lip, such as the S type, V type, and TCK type oil seals, coat the seal lip edge with grease to lubricate the lip. For recommended greases, refer to page K-ll. Figure 3: How to Apply Grease (A) Correct
Apply the grease so that it does not overflow past the lip. as shown in (A).
(B) Incorrect
Applying too much grease, as shown in (B). may cause overflow during assembly that may be mistaken for leakage.
(2) Shaft and Housing
O Check that the shaft surface and the housing bore
© Check that the inner surface of the housing bore
are free of rust preventatives, dust and grit. If these impurities exist, clean thoroughly to remove. If oil or gasoline is used for cleaning, carefully wipe the area dry. Also, spraying compressed air is effective, as it cleans areas that are not readily visible. Residual oil or gasoline on the shaft or the housing bore can result in the oil seal swelling to an incorrect size, which may cause leaks.
and the chamfered area, as well as the shaft end and the shaft surface into which oil seal is inserted are free of defects and burrs. Remove any irregularities with emery paper to prevent damage to the sealing edge or outer surface during assembly.
0Check that the shaft surface that the sealing edge will contact is free of defects and rust, thus prevent¬ ing leaks from those causes.
G-3
5. Installing the Seal Into the Housing Bore (1) Installing the Seal O Orient the seal so thai the seal lip faces the fluid to be sealed, as shown in Figure 4.
Figure 5: Use examples of assembling jig {applicable to the fit with rubber or metal)
Correct Nominal OUtSKJe dametercf seal plus —H
©install the seal squarely using the jig as illustrated in
510 10 mm min.
Figure 5.
Press
i
Assembly jig
Housing Enc Face (Must be finished so that the end face is perpendicular to
Housing
the bore)
ÿ///ÿ///Z///////ÿ//////J
Figure 4: Orientation ot the Seal
Nominal outside
Seal up
-diameter ot seal pUs 5 to 10 mm mm. Nominaloutside
•
I— diameterol seal • mrrjs 0.2
»0.5mm
.Press
Assembly jig Housing
(Oil sioel
Depih olseal IrstalaUcn E
-
(Hcusmg hole depth)- (Nomhal wdth olseal 0.5)
*
Nominal outside
Figure 6 shows improper installation jig use. The
Housing End Face
Housing
oil seal will be deformed by the jig pressure and resistance of the seal/bore press-fit. When installing the oil seal, there is no need to apply force at the area
near the lips. Oil seal locating mandrel
Figure 6: Examples of Improperly Designed Assembly Jigs
Incorrect
ra
G-4
Oil
Housing
- 58 -
©Place the oil seal in the housing bore in a horizontal position, and then press the oil seal in uniformly.
Figure 8: Installing a Seal Without a Press
Pressing a cocked seal in with excessive force (sec Fig. 7) deforms the oil seal, which in turn causes
leakage.
Figure 7: A Cocked Seal Installation Example Incorrect Assembly Jig
Housing Housing
Soal is Cocked
Seal is Cocked
Figure 9: Damage Caused by Direct Hammer Strikes Incorrect
©For oil seals with a rubber 01). press the assembly jig twice in succession to let the oil seal settle firmly at the desired depth of installation in the bore.
©If a press is not available, use a full-sized strike plateas shown in Figure 8, and drive the entire circum¬ ference evenly with a hammer to install the oil seal squarely into the bore. Do not strike the oil seal directly with a hammer, as shown in Figure 9.
© Figure
10 shows the press forces required to properly install an oil seal.
Do nor drive me oi seal using excessive and uneven force
_
_
Sea| |ns|a||a|ion Force Requi(ements (a Guide,
Meiai 00 Seal (maximum)
Rubber OD Seal (maximum) (Rubber material: A727) 0 0
Seal Outer Diameter (mm)
- 59
G-5
(2) Assembly Into a Split-Type Housing avoid using a split-type As mentioned on page housing if possible. If a split housing must be used. first assemble the housing, then install the seal in order to prevent cocking the seal.
6. Installing the Seal Onto the Shaft © Apply a thin coating of lubricant or mineral oil based lithium grease (for example. Scalube SI made by NOK) to the shaft surface and the chamfer area. The seal should be smoothly inserted onto theshaft. Take care not to cause lip turn-under during this operation.
beaks can occur at the mating surface areas of the split housing. Apply a coat of liquid gasket sealant to the split area to prevent this leakage.
©Align the center the of the seal with the shaft centerline, and carefully insert the shaft into the oil seal.
(3) Liquid Gasket Sealant
©When
When a metal 01) seal is used, it is necessary to apply a coat of liquid sealant to prevent the bore II) surface from developing flaws during oil seal replacement, or when a metal OD seal is used and the application is subjected to internal pressure. Observe the following precautions when using sealants.
©Apply a thin coating of lite sealant to the bore II) surface of the housing, and wipe off any excess. Leakage can occur if the lip or the shaft surface is contaminated with sealant.
installing a pre-assembled housing and seal onto a shaft, or inserting a long shaft into a prcassembled seal/housing, the seal lip can be damaged due to shaft contact during this awkward operation. See sketch (A) in Figures 11 and 12. Avoid this damage by installing the seal only after the shaft and housing are assembled. If this is impossible, use an installation guide for the housing or shaft, as illustrated by (B) in Figures and 12.
0 Full-curing or extremely
strong sealants require excessive force to remove the oil seal, usually resulting in damage to the housing. Always use
semi-drying liquid gasket sealant.
G
G-6
- 60 -
(B) Correct Guide
i—
=3
\
Note: When assembling a heavy housing by hand, as illustrated in (A), the shaft may come into contact with the lip and deform it, due to the difficulty of aligning the shaft and oil seal. For this reason, use a guide by taking advantage of the mounting bolt holes, as illustrated in (B).
Figure 12: Assembling a Long or Awkward Shaft (A) Incorrect
(B) Correct
Note: If a guide is not used, part of the lip rubs against the shaft, damaging the sealing e
- 61 -
G-7
0If (he shaft has keyways or splines, the seal's lip edge may be damaged. Cover the shaft as illustrated
the oil seal area (i.e., removing the shaft).
©When removing an oil seal, lake care not to damage
in Fig. 13. Figure 13: Protective Keyway/Spline Cover
nouMM:oo.3R
(Shaft)
the housing bore surface.
©When replacing a new oil seal, place a 2mm shim in the housing hole in order to prevent the seal lip from riding in the same spot on the shaft as the pre¬ vious seal.
orchamlcred
G-8
7. Oil Seal Replacement 0Always replace used oil seals when disassembling
(Protective Cover)
8. Cleaning and Painting ©Cleaning the machine with oil or gasoline may cause the lip material of an exterior seal to swell, resulting in reduced seal performance. 0 When painting the machine with an exterior seal, use care not to get paint on the oil seal or the shaft surface.
ÿHandling NOK's General Oil Seals The following explains how to handle general oil seals. Handle D-type oil seals in the same manner as standard
oil seals. J-Type (PTFE) Oil Seal The sealing edge of a J type seal is more susceptible to installation damage than seals with standard synthetic rubber lips. Observe the following precautions when mounting J type oilseals onto the shaft.
O Check that the shaft end is free of burrs or other defects. © Use an installation jig when there are keyways or splines on the shaft. (Refer to Fig. 8 on page G-8.) ©Insert the shaft in the direction indicated in Fig. 14.
OC-Type Oil Seal The seal lip and press-fit area of OC type seals are "inside out" (reversed) relative to those of standard oil seals. Nevertheless, handle this seal in the same manner as standard oil seals.
The lip is located on the outer circumference. Protect the outer peripheral lip during transit or storage. QLFY-Type (With Integral Shaft) Oil Seal The QI.FY type seal has an integrated shaft (known as a unitized design). Mount this oil seal as a one-piece structure.
© Use a jig as illustrated in Fig. 15 to press the QFLY seal into the housing bore.
0Insert the shaft.
Figure 14: Shatt Assembly Direction
Figure 15: Mounting a QLFY-Type Seal (1) Press the seal into the housing.
Jig
(2) Insert the shaft into the seal.
(3) Installation complete
Housing
- 63 -
G-9
VR-Type (End Face) Seal
Mount the VR type seal so that the fluid to be sealed is outside the lip perimeter, as illustrated in Fig. 16. Apply a thin coaling of grease to the sliding face of the lip before mounting. It is not necessary to put grease on the inner fixed face.
SBB, Large-Diameter SB, Large-Diameter TB Type Oil Seals
©Assembly Into the Housing Insert the entire circumference of the oil seal evenly by using a jig. as illustrated in Fig. 17. Figure 17: Seal Installation
A, \
Figure 16: Proper Orientation ot VR Type (End Face) Seals Housing
When the fluid to be sealed is outside
\
—1—
J *— .1
ÿ
Figure 18: Shaft Installation
Inner side
Z-Type Oil Seal Mount the '/. type seal into the grooves so that the perimeter of the oil seal is seated as evenly as possible. Do not apply a coating of grease or oil to the trape¬ zoidal grooves of the housing or the OD of the oil seal.
After the oil seal is mounted in the housing grooves. apply a light coat of grease to the seal lip. and then assemble the structure onto the shaft.
G-10
"1 -
©Installing the Shaft Apply a coat of oil or grease to the shaft surface to facilitate shaft installation and for initial lubrication. Use a jig as illustrated in Figure 18 when there are kevways or splines on the shaft, or when the shaft end cannot be chamfered properly.
When tluid to be sealed is on the inside
Grease (oil)
-
- 61 -
Installing an MG-Type Oil Seal An MG type oil seal (Fig. 19) is installed after it is cut through its 01), giving it flexibility to be used where a full-round seal cannot. Cut the oil seal as illustrated in Fig. 20. Connect the hooks of the garter spring, then put the garter spring in the lippocket.
Figure 19: MG Type Oil Seal
\
Observe the following precautions when assembling an MG type oil seal.
OFlace the cut splice side of the oil seal at the top. © Rotate the garter spring hook 45 degrees from the splice cut.
© Adjust the spliced ends as evenly as possible. Do not apply any liquid sealant to the splice joint.
©Place the pressure plate and tighten the bolts evenly. If the pressure plate is a split-type design, stagger the split lines 90 degrees to the seal splice.
Figure 20: Cutting the MG Seal Cut position
OKC3, MO, MOY Type Oil Seals OKC3, MO. and MOY type oil seals are designed to seal by its outer diameter surfaces. Use care not to deform the outer lips or damage the sealing edges dur¬ ing transit or storage.
Hammer
Cutting tool
®I)o not transport the oil seal by rolling it.
not store the oil seal standing on its edges or leaning it against something.
©Do
Cutting
OUse a double-beveled tool without nicks. 0 Remove the garter spring before cutting. ©Cut the oil seal at a right angle.
G
— 65 —
G-11
TO ORDER NOK OIL SEALS Contact your nearest NOK sales office or agent.
Please indicate the NOK part number and dimensions.
O Consult us when you need an oil seal not listed in this catalog, or if you are not sure which product to select for special working conditions.
9 A quote will be provided to you for oil seals not listed in *-*• the catalog, or when you require a standard-dimension seals made from non-standard materials (e.g., rubber, metal case, garter spring).
Note: The cross-sectional shape of each oil seal listed in this catalog is shown with the standard profile.
- 66 -
Type & Size List of NOK Oil Seals
_ h- 2 H-15 ---—— _ H-18
NOK Standard Oil Seals
Name rubber (nbr> on seal
(shaft diameter 300mm or smaller)
Acrylic rubber (ACM) oil seal 1 — Silicone rubber (VMQ) oil seal
1.SC type, SB type
Fluorocarbonrubber (FKM) oil seal
H-21
Nitrile rubber (NBR) oil seal oil seal Acrylic rubber (ACM) 5
H-25
H-36 ---—— H-39
2. TC type, TB type
Silicone rubber (VMQ) oil seal
3. TCK type (new labric seal) 4. VC type, VB type
_ Nitrile rubber
5. KC type, KB type
7. TC4 type, TB4 type
NOK General Oil Seals
_ H-45
(NBR) oil seal_ H-47 H-53 Nitrile rubber (NBR) oil seal
H-55
Nitrile rubber (NBR) oil seal
_ Fluorocarbon
6. TCV type, TCN type
_
H-42
Fluorocarbon rubber (FKM) oil seal Nitrile rubber (NBR) oil seal
rubber (FKM) oil seal_ H-S8
Nitrile rubber (NBR) oil seal
H-60
8. TCJ type tor CFCs (PTFE seal)
Nitrite rubber (NBR) and Acrylic rubber (ACM) oil seal 9.SA1Jtype,VAJtype,KA3Jtype Rare CFCs (PTFE) oil seal_ 10. DC type, DBtype Nitrile rubber (NBR) and Actylic rubber (ACM) oil seal 11. PC type Nitrile rubber (NBR) oil seal
H-63 H-65 H-67
_ _ H-69 _ 12. QLFY type_ Nitrile rubber (NBR) oil seal_ H-71 (FKM) oil H-73 13. VR type_ Nilrie rubber(NBR) an! Fluorocarbon rubber
seal
14.2F type, 2T type
Nitrile rubber (NBR) oil seal
H-77
15.SBBtype,Large-diameterSBtype 16. Large-diameter TB type 17. MG type 18. WT type, WTT type 19. OKC3type
Nitrile rubber (NBR) oil seal
H-81
_ Nitrile rubber (NBR) oil seal_ H-86 _ Nitrile rubber (NBR) oil seal_ H-88 Nitrile rubber (NBR) oil seal_ H-92 _ Nitrile rubber (NBR) oil seal_ H-95 20. MO type (Mogoil seal)_ Nitrile rubber (NBR) oil seal_ H-97 21. MOY type (Meseta seal)_ Nitrile rubber (NBR) and Acrylic rubber (ACM) oil seal H-99 - 67 -
H-1
NOK Standard Oil Seals
SClype.SBType Nitrile rubber (NBR) oil seals
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. NOKA727: Shalt diameter class 150 mm or smaller NOK A941: Shalt diameter class 150 mm or h
H-2
- 6S -
NOK Standard Oil Seals
SClype,SBlype Material
\\\N\
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
SC type
SB type
Part Number
Part Number
Dimensions
Shaft diameter Outside diameter
Width b
d
D
6
16 18 20 18 18 22
7 7
22
7
20
7
21
8
7 7
8 8 8 9 10 10 10 10
7 7
8 7
10
25 26
10
28
8
10
30 22 25 30 22
7
11
11 12
12 12 12 12 13
13 13 14 14 14 14
15 15 15 15 15 15
25 28 30 32 25 28 30 24 25 28 32 24 25
8
7
7 7 7 7 7 9 6 7 7 8
6 7
7 9 7 7
28
7 7
7 9 10
15
30 32 32 34 35
15 15 16
35
8
37 26
7
15
7
7
0052 E3 0087 EO 0090 AO 0145 EO
—
9 7
22
11
AC AC AC AC
AC AC AC AC AC AC
0158 0205 0260 0267 0271
A8 AO HO EO EO
0279 AO AC 0283 EO AC 0285 EO AC 0288 EO AC 0308 E1 AC 0311 EO AC 0314 EO AC 0371 EO AC 0382 AO
AC 0387 EO AC 0393 EO
—
AC AC AC AC AC AC AC AC AC AC
AC AC AC AC AC AC
0473 0478 0483 0514 0519 0526 0536 0584 0588 0592 0598 0603 0604 0606 0610 061 1
FO AO E1 EO EO AO EO E1 E5 E1 AO
EO EO EO F3 EO
AC 0616 EO AC 0678 EO
- K9 -
AB 0090 EO AB 0145 EO AB 0147 FO AB 0158 EO AB 0205 EO AB 0260 EO AB 0267 EO AB 0271 FO AB 0279 EO
— — AB 0288 EO AB 0308 E2 AB 0311 E1
— AB AB AB AB AB
0371 EO 0382 EO
0387 EO
0393 0398 AB 0473 AB 0478
EO EO
E1 EO
— AB 0514 EO AB 0519 E1 AB 0526 EO
—
AB 0584 EO AB 0588 FO AB 0592 EO AB 0598 EO
AB 0603 EO AB 0604 EO
—
AB 0610 EO
— —
AB 0678 EO H-3
NOK Standard Oil Seals
SClype.SBlype 1ÿ22221
Nitrile (NBR)
•The sectional view on the nght shows the typical profile of the seal type.
Dimensions Shaft diameter Outside diameter D <1 16
16 16 16 16
30 32
6 7
7 8 9
Part Number AC AC AC AC
0684 E1 0685 FO 0687 AO 0691 EO
— —
Part Number
— AB 0685 EO AB 0687 EO
—
EO
AB 0698 EO AB 0736 FO AB 0742 GO
EO EO
AB 0745 GO
17
35 28 30 30 30
17
32
7
32
8 6
AC 0758 EO
—
7
AC 0759 HO
A8 0759 EO
8
17 17 17
7
6 7 8
AC AC AC AC
17
35
17 17
35 35 38
17
40
8
17
10 7
AC
18 18
40 30 30 32
AC AC AC AC
8
18
35
7
18 18
35 35
8
AC AC AC AC
18
38
7
19 19 19 19
30 35 38 38
8 8 10
19
40
10
20
30 30 32
9
17
18
7
9
0742 0743 0745 0750
E1
—
0760 AO 0768 E1 0771 FO 0773 EO 0816 EO 0817 EO 0825 EO 0828 EO 0829 AO
— —
35
20
35
8
20
36 36
7
AC 1017 EO
10
40
7
40 40
10
20
20 20 20
8
—
AB 0816 EO AB 0817 EO
— —
AB 0829 EO
AB 0864 EO
7 7
34
—
AB 0768 EO AB 0771 E1
AC 0838 EO AC 0864 FO AC 0875 AO
20 20 20
8
—
AB 0751 EO
AB 0831 EO
7
7
—
—
9
AC 0883 EO AC 0984 EO AC 0987 EO AC 0997 EO AC 1003 E1 AC 1012 EO AC 1013 AO
20
H-4
28 28
Width b
— AC 1029 EO AC 1030 EO AC 1032 FO
- 70
—
AB 0880 EO
AB 0881 EO AB 0883 EO AB 0984 HO AB 0987 EO
AB 0997 EO
— AB 1012 EO AB 1013 EO AB 1017 FO AB 1019 EO AB 1029 EO AB 1030 E3 AB 1032 EO
NOK Standard Oil Seals
SClype.SBlype Material
Nitrile (NBR)
•The sectional view on the right shows the typical prolile ot the seal type.
Dimensions Shaft diameter Outside diameter D d 47 25 47 25 47 25 48 25 50 25 50 25 52 25
SB type
Width b
Part Number
Pari Number
6
AC 1348 E1 AC 1350 EO
AB 1348 EO
7
—
8
AC 1357 EO
—
9
AC 1361 EO
AB 1361 EO
—
AB 1363 EO
12
8 10 12 8 8 8
52
25 26 26 26 27 27 27
52 36 38 40 42 40 42 43
27
47
11
28 28 28 28 28 28 28
38
7
38
8 8 8 8 11 8
28
28 28 30
30 30 30 30 30 30 30 30 30 30 30 30
40
42 44 44
45 48 50
8
8 8 9
—
—— AC 1464 EO AC 1468 EO AC 1474 AO
—
AC AC AC AC
1511 EO 1512 EO 1518 AO 1531 FO
—
11
AC 1538 FO AC 1544 EO AC 1545 EO AC 1546 EO AC 1550 EO AC 1563 AO
8
AC 1569 EO
10
AC 1570 EO
39 40
7 7
— —
42
8
AC 1666 E2
44
9
45 45 45
7
AC 1673 EO AC 1677 E1 AC 1679 AO
8 9
45
11
45
12
46 47
9
47
10 12
8
AB 1352 EO
—
AC 1374 E 2
50
47
—
10
25 26
H-6
SC type
AC 1681 EO AC 1682 EO AC 1689 EO AC 1692 EO
—
-
72
-
AB AB AB AB AB
1377 EO 1379 EO 1459 EO 1464 EO 1468 EO
AB 1474 FO AB 1508 EO
—
AB 1512 EO AB 1518 EO AB 1531 EO AB 1532 E1 AB 1538 EO AB 1544 EO
—
AB 1546 G1
AB 1550 EO AB 1563 EO
— — AB AB AB AB
1651 FO 1656 EO
1666 EO 1673 EO
—
AB 1679 GO AB 1680 EO
— AB AB AB AB
1682 EO 1689 EO 1692 FO 1693 EO AB 1695 EO
Oil Seals
SB
jeVDType
\
'The seclior Ihe typical
Shaft dial _ d_
30 30 30 30 30 30 30
a
an the right shows I the seal type.
A
SB type
Part Number
Part Number
7
AC 1700 EO AC 1702 EO AC 1704 EO
10 11
AC 1706 EO AC 1708 EO AC 1709 AO
AB 1700 EO AB 1702 EO AB 1704 FO AB 1705 FO AB 1706 EO AB 1708 EO AB 1709 GO
Width
b 11
7
30
10 12 7 8
31 31 32
HA
SC type
30 30
\ "*{ «f
-A.
\\
,\\\\\\\
Nitrile (NBR)
AC 1719 EO AC 1721 EO
AB 1721 EO AB 1736 EO
AC 1797 E1 AC 1799 EO AB 1869 EO
10
32
AC 1871 G1
AB 1871 EO
32 32 32 32
AC 1880 EO AC 1884 EO
AB 1880 EO AB 1884 EO
AB 1888 FO AC 1893 EO
7
AB 1894 EO
32
8
32 32 32 33 33 33 33 34 34 34 35 35 35 35 35 35 35 35 35 35 35
10 8
AC 1898 EO AC 1902 EO
11
AC 1904 AO AC 1933 EO AC 1934 EO AC 1937 EO AC 1939 EO AC 1968 G1 AC 1971 EO AC 1978 AO AC 2041 EO AC 2048 EO AC 2056 EO
7 8 7 12
8 7 11
7
AC 2057 AO 10 AC 2060 EO AC 2066 EO AC 2067 EO AC 2068 EO AC 2069 EO
11
7
8 9
10
12 73
AB 1902 EO AB 1904 EO AB 1933 EO AB 1937 EO
AB 1968 EO AB 1978 EO
AB AB AB AB AB
2041 FO
2048 EO 2056 EO 2057 GO 2059 EO
AB 2066 EO
AB 2069 EO AB 2072 FO H-7
NOK Standard Oil •
Type, Ni •The sectional view on the right shows the typical prolile o1 the seal type.
Dimensions
Shalt diameter Outside diameter D d 55 35 55 35 55 35 35 56 58 35 60 35 60 35 62 35 62 35 36 50 36 50 54 36 37 62 47 38 38 50 38 55 38
55
38 38 38 38 38
56 58 58 58 62 52 55
40 40 40 40 40 40
55
55 56
8 9
12
10 12
7
AC 2081 EO
AB 2081 EO
2085 2094 2099 2103 2107 2118
AO EO
EO EO 2121 EO AC 2162 EO
AB 2107 FO AB 21 18 EO
—
AC 2204 EO
8
9 10
AB 2218 E1 AB 2230 EO AB 2231 EO
—
AB 2238 EO AB 2239 E2 AB 2240 GO AB 2250 EO AB 2343 E3
AC 2239 EO
AC 2240 A7
11
AC 2250 EO AC 2343 E4 AC 2358 E1 AC 2359 EO AC 2361 EO AC 2362 EO AC 2365 EO AC 2368 EO AC 2369 AO
8
7
8 8 10 12
40
62
7
40
62 62 62 65 65 65
AC 2375 EO AC 2377 EO
—
AC 2385 EO
8
AC 2386 EO
11
AC 2388 AO AC 2390 EO AC 2402 EO AC 2403 EO AC 2405 EO
12 10 12 14 -
— —
AB 7101 EO
8
8 9 10
— AB 2162 EO AB 2164 EO
—
11
7
—
AC 2218 EO AC 2230 EO AC 2231 EO AC 2233 E1
7
8
—
AB 2099 E1
AC 2166 EO
8 12 10 8
AB 2083 FO AB 2085 FO
EO E1
10
58 60 60 60
40
Part Number
AC AC AC AC AC AC AC
to 9 8
58
40
Part Number
—
11
40 40 40 40 40
40 40 40
H-8
55
Width b
74
-
—
— —
AB 2361 GO
— — —
AB 2369 AB 2375 AB 2377 AB 2379 AB 2385 AB 2386 AB 2388
FO EO
EO
FO EO EO FO AB 2390 HO AB 2402 EO AB 2403 EO
—
NOK Standard Oil Seals
SC.SB
EEBi •The
b
' \\W\
Shaft diameter Outside diameter d D 55 42 58 42 60 42 60 42 62 42 65 42 65 42 43 52 43 60 56 44 45 60 45 60 45 61 45 62 45 62 45 62 45 65 45 65 45 68 45 68 45 68 45 70 45 70 45 72 45 72 46 65 47
70
48
62 65 68
48 48 48 50
70
50
70 64 65
50
68
50 50 50 50 50
68 70 70 72 72
——
o
sectional view on the right shows the typical profile of the seal type.
48
—
Nitrite (NBR)
•a
n
Width
b 9 10 9 12 10 9 12
ÿ SC type
SB type
Pari Number
Part Number
—
AB 2483 EO
AC 2491 EO AC 2493 EO
—
AC 2499 EO AC 2504 EO
AB 2504 EO
AC 2507 AO
—
10
AC 2539 EO
7
-
12
12
12 14
10 12 9 12
AC 2643 EO
— AC 2651 A8 AC 2652 EO AC 2653 EO AC 2658 EO AC 2659 EO AC 2666 EO AC 2667 EO 2668 2676 2677 2684 AC 2685 AC 2717 AC 2735
AC AC AC AC
—
AB 2507 EO BB 2041 EO
—
AB 2551 EO
—
7
10 12 9 10
—
AB 2493 FO AB 2495 EO
10
9 9 9 10
"I if
5}
AB AB AB AB AB AB AB
2641 EO 2643 FO 2647 GO 2651 FO 2652 EO 2653 EO 2658 EO
— AB 2666 FO
—
AO EO EO EO
AB 2668 FO
EO EO
AB 2685 EO
EO
—
AB 2677 EO
— —
9 10 9
AC 2780 EO
AB 2735 EO AB 2775 EO AB 2780 GO
AC 2785 EO AC 2788 EO
AB 2788 EO
12
AC 2791 AO
9
10 9 9 10 10 12 9 10
—
—
AC 2838 G2 AC 2847 EO AC 2848 EO AC 2854 EO AC 2857 EO AC 2861 EO
—
—
AB AB AB AB
2791 2834 2838 2847
EO EO EO GO
— AB 2854 AB 2857 AB 2861 AB 2862
GO EO EO
EO H-9
NOK Standard Oil Seals
SCjype,SBjype iflElETrer
_
\\\\\
—i
Nitrile (NBR)
•The sectional view on the right shows the typical profile ol the seal type.
ÿ
4
SC type
SB type
Part Number
Part Number
AB 2864 GO
Dimensions
Shalt diameter Outside diameter
b
D
50
72
12
AC 2864 KO
50
72
13
50
74
50 50
80 80 80 62 70
12 10
AC 2865 EO AC 2872 EO
"50 51 52 52
72
52 52 54
75 75
55
72 82 70
55
72
55 55
78
54
12 14 9
10 9 12 12 10 9 9 9 12 12
55 56 57
78
10
58 58
75
9
58
80 80
60
75
60
75 78 80
9 12 9 10 9 10
80
12
82 82 85
9
12
90
14
80
9 9
60 60 60 60 60 60 60 62 62 62 63 63
85 85 80 85
63
85
65
82
—
AC 2887 EO AC 2888 EO
—
7
78 80 85 78
55
H-10
Width
(1
14 12
12
12 9
AC 2959 EO AC 2961 EO AC 2965 EO AC 2967 A5 AC 3014 EO AC 3021 E1 AC 3036 EO AC 3040 AO AC 3053 El AC 3055 AO AC 3062 EO AC 3072 EO AC 3094 EO AC 3107 E1 AC 3148 EO AC 3152 EO AC 3154 A9 AC 3193 E2
—
AC 3204 EO AC AC AC AC AC
321 1 EO
3213 3220 3222 3234
EO EO AO EO
— AC 3290 AC 3295 AC 3297 AC 3316
EO EO
AO EO
9
—
12 10
AC 3321 EO AC 3389 EO 76
-
—
AB 2872 EO AB 2886 EO AB 2887 FO "AB 2888 EO AB 8924 E1 AB 2959 FO
—
AB 2965 EO AB 2967 EO AB 3014 E1
—
AB 3036 FO
AB AB AB AB AB
3040 3053 3055 3062 3072 AB 3094
GO EO JO EO FO EO
AB 3148 EO AB 3152 GO AB 3154 EO AB 3193 FO AB 3195 FO AB 3204 FO AB 3211 EO AB 3213 EO AB 3220 EO AB 3222 GO AB 3234 EO AB 3244 EO AB 3290 FO
—
AB 3297 EO AB 3316 EO
AB 3320 EO AB 3321 El AB 3389 EO
NOK Standard Oil Seals
Hype.SBlype ÿaEiaiEii
W\N\
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
~ÿi Dimensions Shaft diameter Outside diameter D d 65 82 65 85 65 85 65 88 65 90 65 90 90 65 95 65 65 95 66 86 67 90 68 90 68 95 70 88 70 90 70 90 70 92 70 95 70 100 70 100 71 95 72 100 75 100 75 105 75 105 80 100 80 100 80 100 80 105 80 115 82 105 85 105 85 110 85 120 88 115 90 110 90 115 90 115 90 120 90 125
Width
SC type
SB type
Part Number
Part Number
b 12
AC 3390 EO AC 3394 E1 AC 3395 EO
10 12 12 10 12 13
AC 3400 AO AC 3406 EO
— — AB 3395 EO AB 3400 FO AB 3406 EO
—
AC 3408 EO AC 3409 AO AC 3413 EO AC 3414 FO AC 3427 EO AC 3451 EO AC 3459 A4 AC 3463 EO AC 3505 EO
12 14
10 10
12
13 12 10
—
12
AC 3513 E1
12
AC 3519 AO AC 3527 AO
13 10
—
14
9
AC 3532 EO AC 3549 El AC 3562 EO AC 3618 EO AC 3628 EO AC 3631 EO AC 3731 EO
10
AC 3732 E1
13 13 15 13
AC 3744 AO AC 3761 EO AC 3786 EO
13 12 13 12 15
—
15
13 15 13
AC 3842 GO AC 3855 EO AC 3879 EO
13
13 15 13
Ac 3932 AO
— AC 3938 EO AC 3944 EO
15
-
77
-
AB 3409 FO
—
AB 3414 EO
— — AB AB AB AB AB AB AB AB AB AB AB AB
3459 FO 3463 EO 3505 EO 3512 EO 3513 EO 3519 GO 3527 GO 3530 EO 3532 GO 3549 EO
3562 GO 3618 HO AB 3628 EO AB 3631 EO
— AB AB AB AB AB
AB AB AB AB
AB AB AB AB AB
3732 EO 3734 EO 3744 HO 3761 FO 3786 EO 3837 EO 3842 HO 3855 EO 3879 EO 3921 EO 3932 HO 3934 EO 3938 EO 3944 EO H-11
NOK Standard Oil Seals
SCty SBlype pe,
IflHISfflSII
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
-nr SC type
SB type
Part Number
Part Number
Dimensions
Shalt diameter Oulside diameter d
90 95 95 95 95 98 100
100 100 100 100 100 105 105 105 105 1 10 110 110 110 112 115 1 15 120
Width b 13
120 125 130 120 120
13
120
125 125 130 130 125 130 135 140 140 140 145
15 15 12 13 13 15
— AC 4007 EO
——
AC 4063 G2
15 15 13
— — — — —
14
AC 4153 FO
13
—
15 14
AC 4212 EO
— —
15
14
15 14 14
120
145 150 140 150
120
155
16
125 125
155 160 153 160 160 160 170 170
14
165
14
170
15
170 185 175
14
190
16
145 145
AC 3994 EO
14
145
140 140
—
13
115
145
128 130 130 130 130 130 135 135
H-12
D 130
AC 4282 FO
— —
16
13 14
16 18 14
AC 4346 FO AC 4355 EO AC 4399 E1 AC 4404 EO AC 4451 F2
— —
15 16
15 16
16 14
AC 4465 EO AC 4498 EO
—
AC AC AC AC
4542 4558 4581 4588
EO EO
EO EO
AB 3948 EO AB 3984 EO AB 3994 FO AB 4000 EO AB 4007 EO AB 4033 EO AB 4055 EO AB 4056 EO AB 4063 AO AB 4065 EO AB 4073 E1 AB 4074 EO AB 4146 EO AB 4150 EO AB 4153 EO AB 4161 EO AB 4212 EO AB 4213 EO AB 4220 EO AB 4221 EO AB 4237 FO AB 4282 AO AB 4292 EO AB 4330 E1 AB 4346 AO AB 4355 EO AB 4399 AO AB 4404 EO AB 4433 EO AB 4451 AO AB 4452 EO AB 4453 EO AB 4464 EO AB 4465 EO AB 4498 EO AB 4503 EO AB 4542 AO AB 4558 EO AB 4581 AO AB 4588 EO
NOK Standard Oil Seals
SQlype.SBlype Material
wU\\\\k\
Nitrile (NBR)
•The sectional view on ihe right shows the typical profile ol the seal type.
Shaft diameter d
150
Dimensions Outside diameter D
150
180 195
155
180
155 155 155 160 160 160
185
160
160 160 160
165 170 170 170 175 180 180 180 180 180 180 180
190 190 190 190 190 200
200 200 200 200 200 200 200 200 200
190 200 190 190 190 195 200 200 210 220 200
SC type
SB type
Width b
Part Number
Pari Number AB 4624 AO
14
AC 4624 E1
20 15 15
— — —
14
AC 4672 EO
20
— —
14
15 16 18 14 20 20
225 230 210
210
16
215 220 220 225 235
AC 4804 EO AC 4815 EO
—
AC 4897 FO AC 4898 EO
— —
AC 4911 E1
— — —
20 20 14 15
AC 4975 E4 AC 4982 EO
15
—
16 22
AC 4993 EO AC 5052 EO AC 5053 E1 AC 5054 EO
14 15
16 18 16
—
-
—
16
250
20 20 16
255
22
242
— —
16
220 225 225 245 230 230 230 230 240 240
AC 4724 E3
15 20
220
235
— —
20
16 15 20 20 15
210
AC 4712 EO AC 4713 E3 AC 4717 E2
AC 5068 E4 AC 5070 E1 AC 5075 EO
— 79
-
AB 4635 EO AB 4666 EO AB 4669 EO
— AB AB AB AB
4678 4711 4712 4713
E1 EO EO AO
— AB 4719 EO AB 4721 EO AB 4724 EO AB 4753 EO AB 4795 AO
— AB 4815 EO AB 4855 EO
— AB 4898 AO AB 4904 EO AB 4908 E1
—
AB 4913 EO AB 4915 E2 AB 4974 FO
AB 4975 EO
— AB 4983 EO AB 4993 EO
—
AB 5053 P2 AB 5054 GO AB 5056 EO AB 5060 E6 AB 5065 EO AB 5068 AO
— — AB 5079 EO
H-I3
NOK Standard Oil Seals
SClype,SBlype
HHHB1I
b
\\\ WW ÿ
w
Nitrite (NBR)
•The sectional view on the right shows the typical profile of the seal type.
l\
\
4 SB type
SC type
Dimensions Width b
Shaft diameter Outside diameter d
205 210 210 210 210 210 210 220 220 220 220 220 230 230 230 240 240 240 250 250 260
250
250 265 265 250 255 259 260 275 260 260 285
22 23
15
20 23 15
275
16 19 15 25 20
270
330
280
300
316 320 330 340 330 350 345
300
360
Part Number
Part Number
—
AB 5113 EO
AC 5133 EO
AB 5133 EO
— — AC 5140 EO
—
AC AC AC AC
22
270
260
290
23 15 16 18 20 23 25 15 16
240 250
280 280 310 300 320
280 280 280 290
H-14
D 260
EO EO
— AC 5296 EO AC 5339 EO AC 5346 E2
—
AC 5398 E1 AC 5412 E5 AC 5461 E6
— — —
22 25
80
-
5146 EO
— — AB 5216 AO AB 5224 EO
—
AB 5283 AO AB 5296 EO
— —
AB 5351 AO AB 5398 E7 AB 5412 AO
— AB 5471 AO AB 5523 AO
—
AB 5560 EO
—
AC 5568 EO
— — — —
5138 EO 5139 EO 5140 AO
AB 5204 EO AB 5207 EO
AC 5558 E1
25
.
—
El E6
AC 5224 EO AC 5281 EO
25
25 18 18 24 28 18
5147 5204 5207 5210
AB AB AB AB
AB 5572 AO
AB AB AB AB
5586 EO 5597 AO 5631 EO 5640 AO
NOK Standard Oil Seals
sc
Type,
SB
Type
Acrylic rubber (ACM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. Lip Material
NOK 1303
- 81 -
H-15
.
NOK Standard Oil Seals
SCly SBly pe,
IBBIS1SII
"
pe
Acrylic (ACM)
\\\N\
|
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shaft diameter Outside diameter D d 10 22 10 25 25 12 30 15 30 16 30 17 30 18 35 20 22 42 25 40 25 45 40 28 28 48 30 30 32 35 35 38 40 42 45
45 45
48 50 55 58 60 60 62 65 65 68 70 70
75 75 80 80
H-16
T"if Width
AC 0270 E1
AC 0279 A1
7
AC AC AC AC AC AC
7 7
8 8 8 10 8 10 8 11
8
95 100 100 105
Part Number
7
11
95
Part Number
7
50 52 50 55 58 58 60 61 62 68 70 72 78 80 78 82 88 90 90 92
SB type
b
45
85
SC type
11
8 11 11
8 9 9 9 12
10
13
—
—
GO GO
-
—
A1
— AC 1538 HO AC 1563 A1 AC 1679 A1 AC 1709 A1 AC 1904 A1 AC 2057 A1 AC 2085 A1
AB 1147 FO
AB 1337 GO
— — AB 1679 FO
— — — —
— —
AB 2240 FO AB 2369 GO AB 2493 EO AB 2647 FO
AC 2651 A1 AC 2668 A1
AB 2668 GO
AC 2240 A1 AC 2369 EO
—
AC 2864 A1 AC 3055 A1
— —
9
12 12 12 13 12 12 13 10 13
—
A1
GO F1
AC 1314 A1
12
12 12 12
0382 0598 0687 0745 0817 1013
— — — —
AC 3222 A1 AC 3297 A1
— —
—— AC 3527 A1 AC 3609 FO AC 3618 A1 AC 3732 GO AC 3744 A1
- 82 -
— AB AB AB AB
2791 2864 3055 3154
FO HO
GO FO
AB 3204 GO
AB 3222 HO
—
AB 3400 E1 AB 3409 HO AB 3459 GO AB 3519 F1
— —
AB 3618 A4
—
AB 3744 A4
NOK Standard Oil Seals
SBlype Acrylic (ACM) •The sectional view on the right shows the typical profile of the seal type.
Dimensions
Shaft diameter Outside diameter
Width b
Part Number
Part Number
—
AB 3761 EO
d
D
80 85
115 110
90
115
95 95 too 105 110 110 115 120 130 140
120 130 125 135 140 145
15
145
14 14
145
150 160 170 175
14
— — — — — — — — — —
150
180
14
AC 4624 F 1
160 240
190 300 285 290
16 25 16
250 250
15 13 13 13 15 13
AC 3842 A1 AC 3932 A1 AC 3994 A1
14 14
14 14
16
—
AC 5361 E3 AC 5403 EO AC 5405 EO
- 83 -
—
AB 3932 10 AB 3994 JO AB 4007 FO AB 4063 FO
AB AB AB AB AB
4153 GO 4212 FO 4221 GO
4282 A1 4346 A5 AB 4451 FO AB 4542 E3 AB 4581 A5 AB 4624 FO AB 4713 EO
— — —
H-17
NOK Standard Oil Seals
SClype,SBType Silicone rubber (VMQ) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Cheek the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. Lip Material
H-18
NOK S728
- 84 -
NOK Standard Oil Seals
SC PeSB u
Ty e
Ty
IBHISHEII
Silicone (VMQ)
\v
\N
j
•The sectional view on the right shows the typical profile of the seal type.
% (\ SO type
Dimensions Shaft diameter Outside diameter D d 22 8 25 10 25 12 28 14
Part Number
7
AC 0158 A9 AC 0279 A6
— — —
7 7
7
15 16
7
17
35 30 35
8
18
35
8
20
35 35 36
7
38 40 45 42 47 45 50
8 8 11
25 26 27 30 30 30 30
AC 0382 A6 AC 0526 E1
7
7
8 7
8 11 8 8
1013 A2 1017 FO
— — —
AC AC AC AC
1314 A2 1338 A2
A8 1133 FO AB 1314 HO AB 1338 G2
1012 G1
—
1474 A2
1518 A2 AC 1679 A5
—
AB 1679 E1 AB 1705 EO
7
—
AB 2056 10
8 9
AC 2057 A7
12
52
11
35 38
50 50 55 55 55
38
58
11
40
58
8
AC 2240 A2 AC 2369 A9
40
62
11
AC 2388 A2
40
45
68
48 50
70 68 70 72 72
12 12 9 9 12 12 9 10 12 9
AC 2390 FO AC 2507 EO
45
62 65 61 62
50 50 55
— —
— — —
11
45
-
AC 1709 A2 AC 1724 E1 AC 1904 A4
50
42
— — — —
0598 A5 0610 E2 0687 A2 0760 A2 0829 A4
— — —
11
8
— — —
—
AC 2864 A2 AC 3040 A7
AB 3040 FO
— — AC 2791 A2 AC 2847 A2
- 85
— AB 2083 EO AB 2085 HO AB 2230 FO
AB 2390 G2 AB 2507 H1 AB 2647 EO AB 2651 HO AB 2668 K3 AB 2791 F1 AB 2847 F2 AB 2854 EO
AC 2651 A2
J
-
AC AC AC AC AC AC AC AC
52
32 35 35 35
•ft
t
SB type
Part Number
30
25
kfis
Width b
15
20 20 22
*
A
\\ \\ s\
— H-19
NOK Standard Oil Seals
SClype,SBlype
ISEIBBII
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shaft diameter Outside diameter o d 78 55 80 58 78 60 60 80 60 82 90 60 85 62 65 65
68 70 70 70 72 75
80
88 90 95
92 95 100 100 100 105
110
m
a SC type
SB type
Width b
Part Number
Part Number
12
AC 3055 FO
9 9 10 12
AB 3152 EO AB 3204 E3
AC 3211 F 1 AC 3222 A2
AB 3222 1 3
—
AB 3244 F 1
14
12 12 13
AC 3297 A4 AC 3400 A2
13
—
12 13
AC 3519 A2
AC 3409 A2
— — —
14
12 13 13 13 13 15
AC 3618 A4 AC 3744 A2 AC 3842 A2 AC 3932 F1
115
95 100 105 110 110
120 125 135 140 145
15
—
115 120 125 130 135 140
145
14
AC 4282 E2
150
14
155 160 165 170 175 180
14
190
16 16
150 160 180
125
210
13 13
—
— —
85 90 90
145
H-20
\\\\\\\\
Silicone (VMQ)
—
— AB AB AB AB
—
3400 EO
3409 EO 3463 F1 3519 F2
AB 3527 F2 AB 3532 EO
AB 3562 EO AB 3618 A7 AB 3744 F2
— AB 3932 G8
AC 3994 A2
AB 3944 FO AB 3994 G2
AC 4063 F 1
AB 4063 EO
——
14 14
— — — —
14 14
-
14 14
—
14
AC 4624 F2
—
86
AB 4153 F3
AB AB AB AB AB AB AB AB AB
4212 GO 4221 FO 4282 4346 4399 4451
E1
A2 EO EO 4498 F1 4542 E1 4581 A2
AB 4624 EO AB 4713 H2 AB 4898 E2
NOK Standard Oil Seals
scType,SBlype
Fluorocarbon rubber (FKM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and F,-7 for relevant information on the seal selected before use. Lip Material
NOK F585
- 87 -
H-21
NOK Standard Oil Seals
SC SB Type.
IflEIEIiET
b
Type
h
,\\\\\
Fluorocarbon (FKM) Q
•The sectional view on the nght shows the typical profile ot the seal type.
SC type
SB type
Part Number
Part Number
Dimensions
Shalt diameter Outside diameter D ri 20 7 22 8
10 12
12 12 13 15 15
16
17 17 17 18 18 19
b
7
AC 0090 E3
7
AC 0158 F2
25 22 25
7
32
7
—
7
AC 0371 G1
7
—
30
30
7
35 30 30
7
30 35 30 35 35 35
8
7 7
AC 0399 E1 AC 0484 F2 AC 0598 EO AC 0610 E3
— —
20 20
40 40
11
22
42
10
24
8
—
25 25 28 30
40 40 45 48 45
8 11
AC 1314 FO AC 1338 G1
30
45
30
45
8 9 12
50
11
45 52 50 52 55
8
30 32 32 35 35 35
35 38 40 40 40 40 42
—
AC 0875 FO AC 1013 E1 AC 1030 FO AC 1033 E4 AC 1 147 FO
——
55
8 10 8 11
58
11
1680 E1 1682 F1 1709 E3 1880 H1 AC 1904 E4 AC 2057 E4 AC 2069 FO AC 2081 GO AC 2085 E2 AC 2240 E2
58
8 12
AC 2379 F1
11
—
12
AC 2390 G6
60 62 62 65
— AB 0382 A5
— — AB 0598 A4
— AB 0687 A4
— — AB 0760 A3
—
AC 0817 F1
11
11
— AB 0158 A3 AB 0279 A3
AC 0743 FO AC 0745 F2
8 8 8 8 8 8
20
H-22
Width
AC AC AC AC
— —
12
- 88 -
AB 0829 A3
AB 0875 A4 AB 1013 A3
—
AB 1033 A3
—
AB AB AB AB AB
1260 A4 1314 A3 1338 A3 1563 A3 1679 A3
— —
AB 1709 A3
—
AB 1904 G1
AB 2057 A7
—
—
AB 2085 A3 AB 2240 A3 AB 2369 A3
—
AB 2388 A3
—
AB 2507 A6
NOK Standard Oil Seals
SCrTypeSBType Material
\Y
Fluorocarbon (FKM)
•The sectional mew on the right shows the typical cotile ol tho seal type.
(\
>81 SC typo
a
* s!
*
—J
"A
SB lype
Dimensions
Shaft diameter Outside dameter d
D
45
62 68 70 68
45 48 50 50 52 55 55 58 58 60 60 60 60
62 65 65 65 68 70 70 72 75 80
72 75 72 78 80
80 78 80 82 90 85 88 90 95 90 92 95 100 100 105
Width b
9 12 12 9 12 12 9 12 9 12 9 10
12 13
AC 321 1 G1 AC 3222 E8 AC 3243 El
— —
AC 3414 EO
—
12
AC 3519 G6
13 12 13
AC 3618 F5
13
135
14
140 145 150 155 160 165 170 175 180 190 200
14
160
—
AC 3154 A7 AC 3204 F2
12
110 115 120 125 130 135 140 145 150 160
AC 3055 H2
AC 3409 G2
105
110 115
——
14
120 125
90 95 100
— AC 2668 E1 AC 2791 EO AC 2847 F3 AC 2864 G5
12 12 13
13 13 13 13
85
Part Number
— —
AC 3744 12 AC 3842 F 1 AC 3932 E5 AC 3994 A5 AC 4063 HO AC 4153 E6 AC 4212 F6
14
—
14
AC 4346 EO
14 14
14 14
— — —
AC 4498 F4
14
AC 4581 Gl AC 4624 G 1
16 15
AC 4720 E1
14
—
Part Number
AB AB AB AB
2651 2668 2791 2847 AB 2864 AB 2967 AB 3040 AB 3055 AB 3152 AB 3154
— — —
A3 A5 A3 A3
A3 A3 A3 A6
FO A5
AB 3222 A3 AB 3297 A3 AB 3400 A3 AB 3409 Gl
—
AB 3459 A3 AB 3519 A3 AB 3527 A3
AB 3562 FO AB 3618 A3 AB 3744 A3 AB 3842 A3 AB 3932 A5 AB 3994 A3 AB 4063 El AB 4153 A3 AB 4212 A3 AB 4282 A3 AB 4346 A3 AB 4399 A3 AB 4451 A3 AB 4498 A3 AB 4542 A3 AB 4581 A3 AB 4624 A3 AB 4713 FO
—
H-23
NOK Standard Oil Seals
SClype,SBlype
H ÿ Material
Fluorocarbon (FKM)
•The sectional view on the right shows the typical profile of the seal type.
SC type Dimensions Shalt diameter Outside diameter d D
160 170
180 190 190 200 210
226 240
280
250 250 260 260 275 280 310 320 330 340
300
360
220 220
230 240 240 250 260 270
H-24
210 200 210 225
Width
Part Number
SB type
Part Number
b
—
20
16 16 16 20 20 20 15 22 20 16
AC 4795 EO
— — AC 4985 E1
— —
AC 5204 E3
— —
AC 5346 FO
— —
19 25
— — —
25 25 28 25
- 9
AB AB AB AB
4724 4795 4898 4983
E1
A3 A6 A3
— AB 5068 A3
AB 5140 A3
—
AB 5216 A3 AB 5283 A3
— AB 5351 A3 AB 5412 A3 AB 5471 A3 AB 5523 A3 AB 5572 A3 AB 5640 A3
NOK Standard Oil Seals
TClypeTBType Nitrile rubber (NBR) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use.
Lip Material
NOK A727: Shaft diameter class 150 mm or smaller NOK A941: Shaft diameter class 150 mm or larger
- 91 -
H-25
NOK Standard Oil Seals
TClype,TBlype
H ÿ Material
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shaft diameter Outside diameter
d
Width b
20
7
8 8 8
22
7
25
8 8
9
10 10 10 11 11
12 12 12 12 12
34 22 28
7
20
7
8
25
7
28 25 30 22 23
8 10
25
7
7 7 8
28
7
9
14
30 32 25 28 30 25
14
28
7
14
28
11
14
32 25 30 30 32 35 35
9 7
12
13 13 13
15 15
15 15 15 15 16 16 16
7 7 7
8 7
7
10 9 7 8
26
7
28
7
7 9 6
17
30 35 28 30 30
17
32
7
17
32 35
8
16
17
17
17
H-26
D
l\
7
9
\\w\k\
\V
Nitrile (NBR)
7 8
7
Q
?/nXl
"Hf
\ si
TC type
TB type
Part Number
Part Number
AE AE AE AE AE AE AE AE
0090 0158 0164 0169 0205
AO A4 EO EO AO
0210 EO 0260 JO 0279 A6 AE 0285 EO AE 0311 EO AE 0315 EO AE 0371 EO AE 0375 EO AE 0382 AO AE 0387 EO AE 0393 EO AE 0399 El AE 0473 FO
...
AE 0478 AE 0483 AE 0519 AE 0526 AE 0529
AO
GO
EO AO EO AE 0536 EO AE 0588 K1
AE 0598 AO AE 0600 EO AE 0604 EO AE 0610 FO AE 0611 E1 AE 0678 F 1 AE 0685 GO AE 0687 AO AE 0698 EO
— AE AE AE AE AE
- 92 -
0743 EO 0745 E8 0750 EO 0751 H6 0759 EO
— AD 0158 EO
— — —
—
AD 0260 El AD 0279 EO
—
AD 0311 EO
—
AD 0371 EO
—
AD 0382 EO
— — — AD 0473 EO
— — —
.....
AD 0526 EO
— —
AD 0588 GO AD 0598 GO
—
AD 0604 EO
— — AD 0678 FO AD 0685 FO AD 0687 HO
—
AD 0735 PO
—
AD 0745 E1
— AD 0751 FO AD 0759 EO
NOK Standard Oil Seals
TClype,TBlype Material
N,\
Nitrile (NBR)
\\\\ÿ \\
fcST
•The sectional view on the right shows the typical profile of the seal type.
t\
o
» ?!
TH
TC type
TB type
Part Number
Part Number
AE 0760 H5 AE 0761 FO AE 0768 EO AE 0772 E1 AE 0817 EO AE 0823 EO AE 0829 AO AE 0831 EO AE 0838 EO AE 0870 EO AE 0874 E1 AE 0875 AO AE 0879 EO AE 0880 EO AE 0881 EO AE 0984 HO AE 0995 EO AE 0997 EO AE 1003 E2 AE 1012 GO AE 1013 A4 AE 1015 FO AE 1017 FO AE 1020 E1 AE 1022 E1 AE 6758 EO AE 1024 FO AE 1029 EO AE 1030 E1 AE 1031 EO AE 1032 GO AE 1033 AO AE 1037 EO AE 1042 EO AE 1043 E1 AE 1045 EO AE 1089 EO AE 1092 E2 AE 1 127 EO AE 1133 EO
AD 0760 E1
Dimensions Shaft diameter d
17 17
17 17
18 18 18 18 18
19 19 19 19 19 19
20 20 20 20 20 20 20 20
20 20 20 20 20 20
20 20 20 20 20 20 20 21 21
22 22
Outside diameter D
35 35 38
40 30 32 35 35 38 32 35 35 36 38 38 30
32 32 34 35 35 35 36 37 37 37 38 40 40 40 40
40 42 44
45 45 38 40 35 38
Width b 8 10 7
9 8 7 8 9 7 8 7
8 7 7
10 7
6 8 7 7
8 10 7 7
9 10 7 7 8 9 10 11 8 12 8
12 8 7 8 8
- 93 -
—
AD 0768 EO
— — AD 0823 EO AD 0829 FO
— — — — AD 0875 EO
— AD 0880 EO AD 0881 EO
— — AD 0997 1 1
— AD AD AD AD
1012 F2 1013 EO 1015 FO 1017 EO
— — — —
AD 1029 FO
— AD 1032 FO
AD 1033 FO
— — — AD 1045 EO
— —
AD 1 127 EO AD 1 133 F1 H-27
NOK Standard Oil Seals
TClype,TBlype Material
Dimensions Shaft diameter Outside diameter
22
40 42
11
22 22
42
10
22
42
23 24
42 38
24 24
38
7
11
8 10 8
25
40 45 45 35 38 38 40 40 40
25
42
8 10 8
25
42
11
25 25 25 25 25 25 25
45
7
45 45
8
10
45
11
45
12
46
7
47
25
47
7 8
25 25 25 25 25 26 26 26
48 49 50 50 52 38 40 40 40
26
42
8 9 8
26 26
48
11
52 42
8
27 27
47
11
26
H-28
Width b
D
25 25 25 25
> st
A
d
24 25
\\
\\\\\ l\\
\\\\\
w
a
•The sectional view on the right shows the typical profile of the seal type.
24
NV
Nitrile (NBR)
7
10 6 7
8 7
7 12
12
7 7
7
f\
TC type
TB type
Part Number
Part Number
AE AE AE AE AE AE AE AE AE AE AE AE AE AE AE AE AE AE AE AE
1141 EO 1145 EO 1147 EO 1148 A5 1224 AO 1252 EO 1255 E1 1260 AO 1265 E3 1266 EO 1292 GO 1306 KO 1307 E1 1313 E2 1314 AO 1315 FO 1322 F2 1325 EO 1334 EO 1335 EO AE 1337 FO AE 1338 AO AE 1339 EO AE 1344 EO AE 1350 E1 AE 1351 E2 AE 1356 EO AE 1358 EO AE 1363 EO
—
14
10
•i
AE 1377 FO AE 1463 EO AE 1467 EO
— —
AE 1474 AO AE 1481 EO AE 1484 E1 AE 1510 EO AE 1518 AO 91
— AD AD AD AD AD
1145 EO
1147 FO
1148 FO 1224 E4 1252 EO
—
AD 1260 EO
—
AD 1266 FO
—
AD 1306 H1 AD 1307 EO AD 1313 E3 AD 1314 FO
— — — — AD 1335 EO AD 1337 GO AD 1338 E2
— — —
AD 1351 E1 AD 1356 EO
— —
AD 1364 EO
— —
AD 1467 EO AD 1468 EO AD 1469 EO AD 1474 EO AD 1481 EO
— —
AD 1518 HO
NOK Standard Oil Seals
TClype,TBlype Material
——
\v ww\ «
Nitrile (NBR)
•The sectional view on ihe right shows the typical profile ot the seal type.
n
o
/nSÿ \ »l •el
TC type
TB type
Part Number
Part Number
8
AE 1538 E5
AD 1538 EO
7
AE AE AE AE AE AE AE AE AE AE AE AE
Dimensions
Shalt diameter Outside diameter D d 28 40 28 42 28 42 44 28 44 28 45 28
Width b
8 8 11
8
1544 F0 1545 F0 1546 EO 1550 F4 1553 FO 1557 E1 1558 FO 1562 F1
28
45
11
28
47
7
47
42
8 8 11 9 8
44
7
45 45
8
AE 1679 AO
11
46
7
46 46
9 10
AE 1681 E1 AE 1688 EO AE 1689 E1 AE 1690 EO AE 1692 E1 AE 1693 E1 AE 1699 E1 AE 1700 EO AE 1702 EO AE 1704 EO AE 1705 GO AE 1709 AO AE 1712 EO AE 1720 EO AE 1723 FO AE 1724 EO AE 1736 E1 AE 1738 EO AE 1794 EO
28 28 28 29 30 30 30 30
30 30 30 30 30 30 30 30
30 30 30 30 30 30 30
30 30 31 32 32 32 32 32 33
48 48 45
47
8
47
10
48
7
48 48 50
11
50
8
50 50 52 52 52 55 55
11
8 7
13 8 11
12 12 14
45
9
45
8 8
48 52
8
52 54
11
44
8
10
1563 AO 1630 EO 1666 FO
—
AE AE AE AE
— —
1543 E1
1894 GO
1902 EO
1904 AO 1910 EO
AD 1545 EO AD 1546 EO AD 1550 FO
— — — AD 1562 EO AD 1563 EO
— AD AD AD AD
1666 EO 1671 GO 1679 GO 1681 EO
— — — —
—
AD 1699 EO
—
——
AD 1705 EO AD 1709 EO
— AD 1720 EO AD 1723 EO
— — — —
AD 1880 EO AD 1894 EO AD 1902 E1 AD 1904 FO
—
AD 1929 F 1
- 95 -
H-29
NOK Standard Oil Seals
TClypeTBType
=====
Nitrile (NBR) •The sectional view on the right shows the typical profile of the seal type.
Dimensions Shall diameter Outside diameter
Width b
d
D
33 34
50 52 54
11
35 35 35 35 35 35 35 35 35 35
48
8
50
7
50
8 12
35
55 55 55
34
35 35 35 35 35 35 36 37
38 38 38 38
38 38 38 38 38 38
40
40 40 40 40 40 40
40 M.qn
"HI
50 52 52 52 52 52 55
55
11 11
7
8 9 11
12 8 9 10 11
12 12
60 60 62
14
58
12
53 50 55
7 8 8 9
55
12
58 58 58 58
13
60
11
62 62 52 55
9 11
55
9 10 8
56 58 58 60 62
7
8 11
8 8
12
12 8
TC type
TB type
Part Number
Part Number
AE 1935 AE 1975 AE 1978 AE 2048 AE 2056 AE 2057 AE 2061 AE 2066 AE 2067 AE 2068 AE 2071 AE 2072 AE 2081 AE 2083 AE 2084 AE 2085 AE 2086 AE 2107 AE 2108 AE 2121 AE 2170 AE 2196 AE 2218 AE 2230 AE 2231 AE 2238 AE 2239 AE 2240 AE AE AE AE AE AE
—
E1
—
EO
AO
AD 1978 EO
KO EO
AO 2048 FO
AO EO EO
AD 2057 G2
— — AD 2066 EO
— —
E1
EO
FO EO EO E1 EO AO E1 E1 EO F1 EO
EO EO EO FO EO EO AO
2242 EO 2245 EO
2249 EO
2250 EO 2343 EO 2359 HO AE 2361 EO AE 2366 EO AE 2369 AO
AE 2372 EO AE 2379 EO AE 2386 H1
AD AD AD AD
2071 2072 2081 2083
—
E1 EO FO
EO
AD 2085 GO
—
AD 2107 EO AD 2108 FO
— — — — AD 2230 I0 AD 2231 EO
—
AD 2239 EO AD 2240 10
— —
—— AD 2343 EO AD 2359 GO
-
—
AD 2369 FO
—
AD 2379 EO AD 2386 EO
NOK Standard Oil Seals
TClype,TBlype Material
Nitrile (NBR)
•The sectional view on the right shows the typical profile o( the seal type.
ÿ TC type
Dimensions Shaft diameter Outside diameter D d 40 62 40 62
Width b
63
7
40
65
40
45
65 65 68 55 60 65 65 60 62 60 62 62 68
10 12
45
68
9 12
45
68
14
45 45
12
48
70 70 72 64 62 65 70 70
48
70
14
49 50 50 50 50 50 50 50 50 50
70 65 68 68 70
11
42 42
42 44 44
45 45
45
45
46 48 48 48
50
50
14
11
2507 2557 2560 2643 2651
—
AE AE AE AE AE AE AE
2668 2670 2676 2677 2685 2716 2775 AE 2780
12 11
AO E2 EO E1 AO
AO EO EO
EO HO
EO EO FO AE 2788 H1 AE 2791 AO AE 2793 EO AE 2808 EO
9 9
9 12
—
9 9 10 10 11
—
AO KO FO EO FO E1
A E2666 EO
14
12 9 10 12
72 72 80
AE AE AE AE AE
12
70 72
2388 2390 2396 2402 2403 2405
AE 2483 EO AE 2493 EO AE 2504 FO
9 9 9 12 9 10 9 9
70
72
AE AE AE AE AE AE
11
40
40 40 42
Part Number
12
AE 2847 AO AE 2848 GO AE 2854 EO AE 2856 EO AE 2857 EO AE 2861 E1 AE 2862 E1 AE 2864 AO
14
—
12
AE 2887 EO
- 97
it
TB type
Part Number
AD 2388 EO AD 2390 I0
— —
AD 2403 EO AD 2405 EO AD 7424 EO
—
AD 2493 EO AD 2504 EO AD 2507 I0
— — AD AD AD AD
2643 GO 2651 GO 2653 EO 2666 G1
AD 2668 GO
—
AD 2676 EO AD 2677 EO AD 2685 EO
— —
AD 2780 GO AD 2788 EO AD 2791 EO
— — AD 2838 FO AD 2847 FO
— AD 2854 FO
— —
AD AD AD AD
2861 2862 2864 2867
E2
EO GO FO
— H-31
NOK Standard Oil Seals
TClype,TBlype Material
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shaft diameter Outside diameter D d 88 65 88 65 90 65 95 65 95 65 68 90 95 68 70 88 90 70 92 70 92 70 95 70 100 70 70 100
~nr Width
12 14
13 14
14
13 13
75 75 75 75 78 80 80
95 100 105 110 100 100 100
13
80
105
80
105 115 1 10 1 10 115 120 110 115 115 120 120 125 125 135 115 120
3459 3463 3505 3513 3519 3521 3527 8520
A5 FO F3 EO AO EO EO E2
AE 3549 EO
10
95 95
AD 3400 10 AD 3402 EO AD 3409 JO
—
13
90 90 90
AE 3400 AO AE 3402 EO AE 3409 AO AE 3414 F 1
14
94
90
Pari Number
AE AE AE AE AE AE AE AE
12
95
85 90 90 90 90
Part Number
—
16 12 13 12 12
71
85
TB type
b
72
80 85 85
TC type
—
AE 3611 EO AE 3618 AO
13 15 13 13 12 13 13
— — —
AE AE AE AE AE
15
15 13 15 15
3733 3734 3744 3746 3761
EO EO AO
FO EO
AE 3842 AO AE 3844 EO AE 3852 EO AE 3855 EO
15
—
13 13 15
AE 3932 AE 3934 AE 3938 AE 3939 AE 3944 AE 3945 AE 3951 AE 3984 AE 3994
13 15 15 17 15
13 13 99
-
A9 EO
EO EO FO
—
AD AD AD AD
3415 EO
3459 HO 3463 E9 3505 HO
— AD 3519 KO AD 3521 GO AD 3527 HO
— AD 3532 EO AD 3549 EO BD 1423 E1
—
AD AD AD AD
3618 10 3631 FO 3636 EO 3694 EO
— —
AD 3744 JO AD 3746 EO AD 3761 El AD 3842 1 0 AD 3844 FO AD 3852 EO AD 3855 EO AD 3921 EO AD 3932 JO
— — —
EO
AD 3944 EO AD 3945 EO
EO EO AO
AD 3994 GO
— —
H-33
Chemical Resistance Data _J
Note: Refer to page J-6 before use. Hardnes Volume Test Test NOK Lip Temperature Change Change Resfetmn Duration (Duromste'A) Ratreerel Material (%) CC) (h) (points)
Sealing Fluid
10% hydrochloric acid solution
30% sulfuric acid solution
A727
40
168
T303 S728 F384
168 168
S728 F384 A727
40 40 40 40 40 40 40 40
T303
40
S728 F384 A727
40 40 40
T303 S728
40
A727
T303
Sulfurous acid 13 O to Di
3
o
10% nitric acid solution
O
ci.
CO
o
F384 A727 T303
Chromic acid (saturated aqueous solution)
S728 F384 A727
Silicic acid (saturated aqueous solution)
T303 S728
F384 A727 T303
85% phosphoric acid solution
S728 F384 A727
Glacial acetic acid
40% acetic acid solution
2. o
8
CL
)
70% acetic acid solution
s
©
30% mono-chloroacetic acid solution
J-24
198
-10
168 168 168
14.8
+ +
8.1
8.1
+ 0.3 + 3.7 + 0.3 + 15.0 + 157.0
A
+ 100.0 + 43.7
X X A
+ + + + +
-
168 168 168
168 168
+
+ 8.6
7.6 31.0 -19 40.0 21.2 + 2 17.8 -12 Immeasurable Trrreasurable 5 + 18.0
+ 14
-10 -6
-
1
+ 3 + 1
+ + +
7.6 6.9
0.3 0.5
-
1
0
-
+
1
-
2
+ 0.3 + 7.6
— — —
X A
X
X X X A X A A
3.1
+ 35.6 + 0.9
+ +
A
X
©
"ÿ©"
0.2
+ 32.6 + 166.0
X X
+ 19.0 + 45.3
A
-13
+ 122.0 + 50.5
X X
+
4.7
X
168 168
-10 1 0 -11 -10
+ 4.5 + 72.0
X
168
-
168 168 168 168 168
-14
40
168
40 40 40
168 168
-
168
-11
40
168 168
-
168 168
-11
S728 F384
-
—
168 168
A727
S728 F384 A727
-
168 168 168 168 168
T303
A727 T303
Oleic acid
168
40 40 40 40 40 40 40 40
T303 S728 30% methonoic acid solution
-21 5 -10
168
F384 A727
I
-15
40
T303 S728
——
168 168 168
168 168 168 168 168
A727
7
168
40 40 40 40 40
S728 F384 O
40 40 40 40
3
— —
40
A727 T303
<3 0)
40
-
168 168 168 168
168 168
T303 S728 F384 10% acetic acid solution
40 40 40 40 40 40 40 40 40 40
168
-- 56
40 40 40
-
1
— — —
+ +
61.4
X
7.7
X A
+ 17.4 + 81.0
+
X
X
64.2 168
X X
-12
+ 114.0
X
-10 1
+ 53.2 + 9.3
X A
5
+
7.6
O
+ 25.2 + 42.5 + 29.3
X
-
-
6 4
3
+ +
X A
11.3
A
22.4
A
Oil Seals
TB
Type
mEH
Nitrile (NBR)
section!
>n the right shows
typical p
' the seal type. TC type
TB type
Part Number
Part Number
Dimensions
alt diart
_ d_ 95 95 95 100 100
100 100 100 100 105 105 105 110 110 110 110 112
Width b
AE 3995 EO AE 4007 EO
15 15 17
12 13 15 13 15
AE 4063 FO AE 4065 EO AE 4079 EO
17
AE 4153 EO
14
16 15 14 16 15
AE 4161 EO AE 4212 H7
AE 4221 EO AE 4237 EO AE 4279 EO AE 4282 EO
14
115
15
14 16 16
14
AE 4346 HO
16 16
AE 4355 EO
120
18
125
14
AE 4399 FO
125
16 16
AE 4400 FO
125 125
18
130
14
130 135
16
135
14
135
16
140
14
140 140 140 145
14
AD AD AD AD AD AD AD AD AD AD AD
AE 4498 E2
AE 4535 GO AE 4542 EO AE 4558 EO
14
AE 4581 EO
14
EO
AD 4222 EO AD 4237 EO
AD
16
145
AO
AD 4221 EO
AD
AE 4451 FO
16
16
FO E1 EO EO
AD 4212 AO
AD
14
145
E3 EO EO AO
AD 4214 EO
17
115 115 1 15 120 120 120
AD 4007 AD 4008 AD 7700 AD 4063 AD 4065 AD 4073 AD 4079 AD 4081 AD 4153 AD 4154
-
100
-
AD AD
4282 AO 4284 EO
4292 EO 4346 AO 4349 FO 4355 EO 4356 EO 4399 AO 4400 FO 4404 EO 4405 EO 4451 AO 4453 EO 4494 EO 4498 AO 4506 EO
AD 4542 AO AD 4555 EO AD 4581 AO AD 4582 EO AD 4584 EO
.
NOK Standard Oil Seals
TClype,TBlype Material
\ \
.\ \ \ \ \k \
Nitrile (NBR)
•The sectional view on the right shows
v
ÿ
the typical profile of the seal type.
TC type
TB type
Dimensions
Shalt diameter Outside diameter D d 190 145 150 180 180 150 155 180 200 155 160 190 190 160 160 196 170 200 170 205 170 225 180 210 215 180 185 210 190 225 230 200 235 200 240 200 240 200 210 250 210 250 220
220 220 220 220 230
230 230 240 240
240 240 250 250 260
270 280 280 290 300
Width b 16
Part Number
AE AE AE AE AE AE
14
16
15 20 15 16 20 16 20 16 18 15 16 15 18
—
4588 EO 4624 F6
4626 FO 4666 EO 4678 EO 4712 E 1
— —
AE 4795 EO AE 4800 EO
16
Part Number
— AE 4898 E5
—
AD 4624 AO AD 4626 EO
—
AD 4678 FO AD 4713 A4 AD 4718 EO AD 4795 AO
—
AD 4815 F 1 AD 4898 A9 AD 4905 EO
—
AE 4943 E1 AE 4983 P2 AE 5053 E2
AD 4983 A9
20 16 20
AE 5068 E2
AD AD AD AD AD
250
16
255 260 275 275 260 270 270 270 275 275 280 285 310
18 22 23 26
AE 5205 E1 AE 5208 G3
320
25
330 320 340
350
25 22 28 25
360
25
— —
17
— — —
——
16
— — — — — — — — —
18 19 18 25
— 101
-
5140 A5
— —
—
AD 5225 EO AD 5283 AO
— — — —
AE 5289 EO AE 5290 EO AE 5341 EO AE 5346 EO
16 20 20
5138 EO
AD 5216 A9
AE 5224 EO
20
-
—
5061 X4 5066 XO 5068 A8
AD AD AD AD
AD
5347 5351 5404 5412 5471 5523 5562 5572
X3 A6
EO AO AO AO E3
AD AD AD AO AD 5597 AO AD 5640 A6
H-35
NOK Standard Oil Seals
TCType.TBlype
Acrylic rubber (ACM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 (or relevant information on the seal selected before use. Up Material
H-36
NOKT303
- 102 -
NOK Standard Oil Seals
TClype,TBlype Material
Acrylic (ACM)
•The sectional view on the right shows the typical profile of the seal type.
"HI TB type
TC type
Dimensions Shalt diameter Outside diameter D d 9 22 12 22 30 15 30 16
Width
7 7 7 7
18
35
8
20
7
22
35 35 38 40
22
42
8 8 9 10
24
40
8
25
40
8
20 22
25 26 28 28 30 30 30 32 32 32 35 35
1012 JO 1013 EO 1133 FO 1139 EO
—
—
11
—
45
8
AE 1679 A1
50
8
AE 1705 FO
50 50
11
52
58 62 64 60
10 8 11
8 11
8 11
8 11
12 9
42
65
12
45
62 68 70 68
9 12 12 9
72
12
75
12 9 12 12
72 78 80
AD 0829 EO AD 1012 GO
— — —
AD 1147 GO
AE 1260 A1 AE 1314 A1 AE 1474 A1 AE 1550 EO
40 40 40
55
—
AE AE AE AE
8 8
58
52 55 55
— — — —
10
38
48 50 50
AE 0205 EO AE 0371 LO AE 0598 A1 AE 0687 A1
45
38
45
Part Number
42 45 48
52 50 55 55
42
Pari Number
b
— AD 1314 EO AD 1337 HO
— — AD 1563 FO AD 1679 FO
—
_
AD 1709 FO
AE AE AE AE AE AE AE AE AE AE AE AE AE AE
1896 EO 1902 GO 1904 A1 2057 HO 2085 A1 2230 HO
2240 A1 2369 A1
2388 2398 2493 2507 2651 2668 AE 2791 AE 2847 AE 2864 AE 2967 AE 3040 AE 3055
—
— — AD 2057 FO AD 2085 FO
— — —
A1 EO FO A1 A1 A1 A1 A7
AD 2388 PO
A1
AD 2864 HO
A1 A1 A1
— —
— — —
AD 2651 FO AD 2668 I0
— —
AD 3055 I0 AD 3062 FO
H-37
NOK Standard Oil Seals
TClype,TBlype Material
I
Acrylic (ACM)
•The sectional view on the right shows the typical profile of the seal type.
TC type
Dimensions
Shalt diameter Outside diameter D d 80 58 60 82
115 125 120 125 135 140
13
AE 3154 A7 AE 3222 A1 AE 3234 EO AE 3297 A1 AE 3400 A1 AE 3409 A1 AE 3459 A1 AE 3519 A1 AE 3527 A1 AE 3618 A1 AE 3734 FO AE 3744 A1 AE 3842 A1 AE 3932 A1
17 13 13
AE 3994 A1 AE 4063 GO
CD cn
62 65 65 68 70
85
12
88 90 90 92 95 100
12 13 12 12 13 13 13 13 13
75
105
110 115 120
125 130 135 140 145
150 170 170 180
200 210 240
Pari Number
100 105
1 10
—
14
—
14
AE 4212 F1
145
14
150 155 160 165 170 175 180
14
200
16 16
225 210 235 265 275
TB type
Part Number
b
60
80 80 85 90 90 95 100
H-38
Width
12 12 12
70
Tl(
TU
——
— — —
14 14 14
——
14 14
—
14
——
— — —
16
18 25 18
ldt
— AD 3222 SO
— AD AD AD AD AD
3297 3400 3409 3459 3519 AD 3527
EO KO
HO EO GO G1 AD 3618 JO
—
AD 3744 HO AD 3842 H1 AD 3932 I 1 AD 3945 FO AD 3994 JO AD 4063 A1 AD 4153 A1 AD 4212 A1 AD 4282 GO AD 4346 A1 AD 4399 A5 AD 4451 A1 AD 4498 A1 AD 4542 A1 AD 4581 A1 AD 4624 A1 AD 4795 EO AD 4814 XO AD 4898 E1 AD 5061 XO AD 5147 E2 AD 5347 XO
NOK Standard Oil Seals
TC TB Type,
Type
Silicone rubber (VMQ) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions.
•Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use.
Lip Material
NOK S728
- 105 -
H-39
NOK Standard Oil Seals
TClype,TBlype iflFHEnEll
\\
J
Silicone (VMQ)_
•The sectional view on the right shows the typical prolile o' the seal type.
TC type
Dimensions Shalt diameter Oulside diameter D d 8 22 10 25 25 12 30 16 32 17 35 17 35 18 35 20 36 20 42 22 40 25 45 25 48 28 30 45 50 30 52 32 50 35 55 35 38 58 58 40 62 40 65 42 45 62 45 48 50 52
68
52 55 55
75
57
77
60 65
82
72 78
88
80
90 88 92 95 100 100
80
105
65 70 70 70
75
H-40
70 72 70
Part Number
Width
b 7
AE 0158 A2
7
AE 0279 A2 AE 0382 A2 AE 0687 A7
7 7
—
8
AE 0760 A2 AE 0829 A2 AE 1013 A2 AE 1017 G1 AE 1148 A2 AE 1314 A8 AE 1338 A2 AE 1563 A2 AE 1679 A4 AE 1709 A2 AE 1904 A7 AE 2057 F1 AE 2085 Q2 AE 2240 A7 AE 2369 A9 AE 2388 A6 AE 2507 A2 AE 2651 A8 AE 2668 HO AE 2791 A2 AE 2864 A9 AE 2959 EO AE 2967 A2 AE 3040 A7 AE 3055 A9 AE 3106 E2 AE 3222 A2 AE 3400 A7 AE 3409 A6
8 8 8 7 11
8 11
11 11 11 11 11
8 11 12
9 12 12 12 9
12 9 12
12 12 12 13
—
12
AE 3519 A7 AE 3527 A9 AE 3618 A2 AE 3733 G1 AE 3744 A7
12 13
13 12 13
-
106
-
TB type
Part Number
— — — AD 0687 F 1 AD 0751 EO
——
— — — — — — — —
——
AD 2085 N1
— —
AD 2388 J1 AD 2507 K1
— — — — —
—— AD 3055 J2
— — AD 3400 J2 AD 3409 G1 AD 3505 J1
—
AD 3527 G4 AD 3618 G2
—
AD 3744 F3
NOK Standard Oil Seals
TClype,TBlype Material
Silicone (VMQ)
•The sectional view on ihe nghi snows the typical prcMe dthe seal type
TC type
TB type
Part Number
Part Number
Dimensions
Shalt diameter Outside diameter d
D
Width b
85 90 95 100 105 110 115 120
110
13
115 120 125 135 140 145
13 13 13
150
14
125
155
14
130 135 140 145 150
160 165
14
170 175 180
AE AE AE AE AE
14
3842 FO 3932 SI 3994 F1 4063 JO 4153 H2
14 14
AE 4399 10 AE 4451 H1
14 14
AE 4581 GO
14
-
107
AD 3842 G2 AD 3932 G2 AD 4063 A9 AD 4153 A4 AD 4212 LO AD 4282 G2 AD 4346 A2 AD 4399 A2 AD 4451 A4 AD 4498 G5 AD 4542 A2 AD 4581 A2 AD 4624 A8
H-41
NOK Standard Oil Seals
TClypeTBType Fluorocarbon rubber (FKM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 lor relevant information on the seal selected before use. Lip Material
H-42
NOK F585
- 108 -
.
NOK Standard Oil Seals
TClype,TBlype Material
i)
L kSL
Fluorocarbon (FKM)
iThe sectional view on the right shows the typical protile ot the seal type.
Dimensions Shaft diameter Outside diameter d
8 10 12 14 15
16 17
19 20 20 22 24 25 25 28 30 30 32 35 35
38 40 40 40 42 45 45
48 50
50 52 55 55 58 60
60 65 65 68
70
TO type
Width b
Part Number
22 25
7
AE 0158 F2
7
—
D
25
7
28
7
30 30 35
7 7
35 40 42 40 40
8 8 8 11 11 8 8
45
11
48
11 8 11 11
35
45 50
AE 0382 K1 AE 0526 FO
— —
AE 0760 FO
—
AE 1013 F2
—
—
—
AE 1314 J1 AE 1338 G2
— —
AE 1709 J2
50 55
8
— —
11
AE 2085 K4
58
i1
55
8
58 62 65 62 68 70
8 11 12
— — —
9
AE 2651 F4
52
——
68
9
— — —
72
12
AE 2864 J1
75 72
12 9
— —
78
12
AE 3055 E2
80
12
78
9
82 88 90 95 88
12 12 13
12 12
13 12
—
AE 3204 G2 AE 3222 GO AE 3400 F 1 AE 3409 F4 AE 3463 EO AE 3505 G3
ÿ
\
_
~
j
TB type
Part Number
AD AD AD AD AD AD AD AD AD AD AD AD AD AD AD AD AD AD AD AD
0158 A3 0279 A3 0382 A3 0526 A4 0598 A3 0687 A3 0760 A3 0875 A3 1013 A3 1033 A3 1148 A4 1260 A3 1314 A3 1338 A3
1563 A6
...
1679 1709 1904 2057
A3 A3 A3 A5
2085 A3 AD 2240 A3 AD 2359 H1 AD AD AD AD AD AD AD AD AD AD
2369 A5 2388 F3 2507 A3 2651 A3 2668 A4 2791 A3 2847 A6 2864 A3 2967 A3 3040 A6 AD 3055 A3 AD 3154 A3
—
AD 3222 A3 AD 3400 A3 AD 3409 A5
— —
H-43
.
NOK Standard Oil Seals
H
TClype,TBlype
ÿ Material
Fluorocarbon (FKM)
•The sectional view on the right shows the typical prolile ol the seal type.
Dimensions Shaft diameter Outside diameter d D 92 70 95 70 100 75 105 80 110 85 115 90 95 120 100 125 135 100 135 105 140 110 145 115 150 120 125 155 160 130 165 135 140 170 145 175 180 150 190 160 170 200 180 210 225 190 200 240 210 250 220 260 260 230 280 240 310 250 320 260 340 280 350 290 360 300
H-44
Tlf TC type
Width
b 12 13 13 13 13 13 13 13 15
Part Number
Part Number
AE 3519 M3
AD 3519 A3
—
AE 3618 F3
— —
AE 3932 A6
—
AE 4063 I0 AE 4079 F1
— — — — — — — — — — —
14 14 14 14 14 14 14 14 14 14
16
——
16
16 16 20 20 22 20
— — — — —
——
19
25 25 28 25 25
— — —
-
TB type
110
-
AD AD AD AD AD
3527 3618 3744 3842 3932
A3 A5 A3 A3 HO AD 3994 A3 AD 4063 A4
—
AD 4153 A5 AD 4212 A3 AD 4282 A3 AD 4346 A9 AD 4399 E1 AD 4451 A3 AD 4498 A6 AD 4542 A3 AD 4581 FO AD 4624 A3 AD 4713 A9 AD 4795 A3 AD 4898 A3 AD 4983 A4 AD 5068 A3 AD 5140 A3 AD 5216 A5 AD 5283 EO AD 5351 A3 AD 5412 A3 AD 5471 A3 AD 5572 A3 AD 5597 A3 AD 5640 A7
NOK Standard Oil Seals
TCKtkType
(new fabric seal)
Nitrile rubber (NBR) + New fabric (FH) oil seal
ÿWhen ordering, please indicate the NOK part number and the relevant dimensions. ÿCheck the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal
selected before use. Lip Material
NOK A727 + NOK 31FH
- Ill -
H-45
n b
wlwwjw
H
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shaft diameler Outsidedametef d D 20 40 45 25 50 30 55 35 40 62 68 45 72 50 78 55 82 60 88 65 95 70 100 75 80 105 110 85 115 90 95 120 100 125 140 110
H-46
Part Number
Width b
AE AE AE AE AE AE
11 11
11 11
12 12 12 12 12 13
13 13 13 13 13 13 14
"
I'2
1033 PO
1338 SO 1709 PO 2085 VO 2388 QO 2668 TO AE 2864 QO AE 3055 QO AE 3222 QO AE 3400 PO AE 3527 PO AE 3618 PO AE 3744 PO AE 3842 QO AE 3932 PO AE 3994 PO AE 4063 PO AE 4212 PO
11
"
NOK Standard Oil Seals
VCVB
Type
Nitrile rubber (NBR) oil seals
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. Lip Material
NOK A727: Shaft diameter class 150 mm or smaller NOK A941: Shaft diameter class 150 mm or larger
- 113 -
H-47
NOK Standard Oil Seals
VQlype,VBlype IflEIHffill
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
\ \
\\.s l\\\\\s\
(\
£
1
W\
o
"6
ÿ
V C type
«|
n
ÿ
VB type
Dimensions
Shaft diameter Outside diameter d D 16 7 20 7
8 8 8 9 10 10 12 12 12 12 13 14 14 14 14
15 15 15 15 15 16 16 16 17 17 17 17
18
18 18 19 19 20 20 20 20 20 20 H-48
Width
Part Number
Part Number
b 6 5
AC: 0089 AO
AF 0082 E2 AF 0089 E3 AF 0123 F2
14
4
18 22 22 20 25 22 25 30 32 28 24 24 28 34 25 30 30 32
4
35
6
24
4
28 30 30 30 32 35 30 35 38 35 40 26 32 34 35 40 40
5 5 4
5 4 5 6 5
5
AG 0123 E2 AG 0141 E2 AG 0156 AO
AG 0204 AO AG 0256 EO AG 0276 AO AG 0369 EO
AG AG AG AG
4 4
5
6
4
0380 AO 0391 EO 0397 EO 0477 AO
—
4
6 5 6
— — —
AG 0514 EO AG 0524 AO AG 0538 EO AG 0585 EO
AG 0595 FO 0596 AO
AG AG AG AG
0602 EO 0608 EO 0668 EO
—
AF AF AF AF AF
0256 0276 0369 0380
EO EO E2 EO 0391 EO
-
—
AF 0511 FO AF 0514 EO AF 0524 EO
—
AF 0585 EO AF 0595 EO AF 0596 EO AF AF AF AF
0602 0608 0668 0682
—
EO EO EO E2
5 5
AG 0686 A4
—
AF 0741 F1
7
AG 0743 EO AG 0749 EO AG 0757 AO
AF 0749 EO
6 5 5 6
7
6 6 6 5 5 6 5 7
— —
—
AF 0814 EO
— —
AF AF AF AF
AG 0827 AO AG 0838 EO AG 0873 AO
AG 0994 E1 AG 1001 EO AG 1010 AO AG 1027 AO AG 1029 EO
— —
0873 EO 0882 FO 0964 F1 0994 GO
— AF 1010 FO AF 1027 EO
—
?!
NOK Standard Oil Seals
VClype,VBlype Material
Nitrile (NBR)
•The sectional view on the fight shows the typical profile ot the seal type.
V C type
Dimensions Shaft diameter Outside diameter
Width b
Part Number
6 6
AG 1035 EO
40 32 34 35 38 42
7
AG 1092 EO
47
7
32 42 38 40
7
AG 1119 EO AG 1124 FO AG 1132 EO AG 1144 AO AG 1 161 EO AG 1213 E8
6
AG 1222 A5
5
AG 1250 EO AG 1258 AO AG 1268 EO AG 1291 EO AG 1303 EO AG 1311 AO AG 1312 AO AG 1317 EO AG 1321 EO AG 1333 EO AG 1334 EO AG 1347 EO AG 1348 E1 AG 1359 E1 AG 1466 EO AG 1473 AO AG 1479 EO AG 1510 EO AG 1517 AO AG 1535 EO AG 1548 EO AG 1556 EO
d
D
20
42
20
47
21 22 22 22 22 22 22 23 23 24 24 24 25
5
5 6 5
25 25
40
25
42
25 25 25 25 25 26
45 45
7
47
5
47
6 5 5
25 25
35 38 40 41
26
50 40 42
26
48
6
27 27
42
7
47
8
40 45
5
28 28 28 28
47
28
48 48
28
50
30 30 30 30 30
40 42 45 46 48
—
5
6 5 5 5 5 6 6 5 5
47
—
6
6 5
—
5
VB type
Part Number
— AF 1047 EO
—
AF 1113 E2
—
AF 1124 EO AF 1132 EO AF 1144 EO
— — — AF 1250 EO AF 1258 GO
—
AF 1291 EO
AF 1303 F2 AF 131 1 GO AF 1312 EO
— — AF 1333 EO
AF AF AF AF
AG 1568 EO AG 1654 EO AG 1663 FO AG 1676 AO AG 1686 EO AG 1698 EO
5
6 5 6
-
115
EO EO EO EO
— — AF 1479 EO
— AF AF AF AF AF
1517 EO 1535 GO 1548 EO 1556 EO 1560 EO
AF AF AF AF AF
1568 1654 1663 1676 1686
—
AG 6759 AO
6 6 5
1334 1347 1348 1359
FO EO EO
EO EO
—
H-49
NOK Standard Oil Seals
VClypeVBlype H ÿ Material
w
A
\\\\\
\Y
Si
Nitrile (NBR)
-0.
V)
•The sectional view on the right shows the typical profile of the seal type.
*1
1
(V
VC type
VB type
Width b
Part Number
Part Number
5
AG 1703 AO
8
AG 1705 EO AG 1717 EO AG 1731 EO
Dimensions
Shalt diameter Outside diameter d D 30 50 50 30 30 52 30 55 56 30 45 32 48 32 52 32 34 54 45 35 47 35 48 35 50 35 50 35 35 52 55 35 55 35 35 60 62 35 38 50 54 38 55 38 58 38 58 38 64 38 40 52 55 40 58 40 60 40 62 40 40
62
40 40 40 42 42 42
62 65 65
42
45 45
45 H-50
5
5 5 5 6
AG 1741 EO AG 1876 EO AG 1892 EO
5
AG 1899 AO AG 6760 AO
8 5 5 5 5
—
AG 2039 EO AG 2044 E1 AG 2053 EO AG 2055 AO AG 2064 EO
6
5
5 8 5 6 5 6
AG 2079 AO AG 2081 EO
AG 2102 EO
AG 2228 AG 2229 AG 2237 AG 2239
8 5 5
—
AG AG AG AG AG AG
5
6 5 5 6 8 5
7
EO E1 EO AO
2340 EO
2357 E1 2367 AO
2373 EO 2382 EO 2383 AO
AG 2386 EO AG 2399 EO AG 2400 EO AG 2480 E1
6
55 60 65 60 62 65
— —
AF 2033 EO AF 2039 EO
— AF 2053 EO AF 2055 EO AF 2064 EO AF 2079 FO AF 2081 EO AF 2102 EO
— AF 2215 EO
5
6
1703 EO 1705 EO 1717 EO 1731 EO 1741 E1 1876 EO
AF 1899 EO
AG 2115 EO
6
55
AF AF AF AF AF AF
7
9 6
AF 2382 E3 AF 2383 EO AF AF AF AF
—
AF AF AF AF AF
—
5
-
— AF 2239 EO AF 2253 EO AF 2340 FO AF 2357 EO AF 2367 EO AF 2373 EO
AG 2492 FO AG 2504 AO AG 2640 E1 AG 2649 AO
7
—
AF 2229 EO
116
-
2386 2399 2400 2480 2481 2492 2504 2640 2649
EO
EO EO EO
EO EO EO EO EO
AF 2655 EO
5t
NOK Standard Oil Seals
VClype,VBlype Material
\Y
\\\\\ w
Nitrile (NBR)
•The sectional view on the fight shows the typical profile of the seal type.
t\ VB type
VC type
Dimensions Shaft diameter Outside diameter d D 68 45 45 68 45 70 45
48 48 48 48 50 50 50 50
50 50 50 52 52 52
55 55 55 55 56 58 58 58 58 58 60 60 60 60 60
60 62 62 63 65 65 65
68
>A V\
72 62
62 65 70 65
Width
Part Number
Part Number
6 9 6 6
AG 2664 AO
AF 2664 EO AF 2666 EO
b
6 8 7 6 6
72 72 72 80 80 65
7 5 6 9 6 7 6
70
7
75 70 72 74
9 6
68
78
70
72 75 80 80 80
75 78 82 82 85
7
6 9 6 6 7
AG 2666 AO AG 2674 EO AG 2682 EO AG 2772 EO
AG AG AG AG
2774 EO 2779 EO
AG 2846 AO AG 2859 EO AG 2860 AO
AF 2860 EO
AG 2861 EO AG 2883 EO
AG 2884 EO AG 2954 EO AG 2958 EO AG 2965 AO AG 3034 EO AG 3038 A4
—
AG 3053 AG 3088 AG 3143 AG 3147
— AF 2883 EO AF 2884 EO
—
AF 2958 EO
— AF 3034 E2
AF 3038 EO AF 3044 EO
AO
— AF 3088 EO
6
AG 3151 EO
9 6 7 6 9
AG 3152 AO AG 3191 E1 AG 3203 EO
90
7
AG 3217 A4 AG 3220 EO AG 3230 E1 AG 3240 EO
75 85 80 85 88
6 6
AG 3283 E1 AG 3293 AO
7
5
AG 3315 E1 AG 3393 EO AG 3397 E3
88 90
7
6
—
E1 EO E2
—
9
— — AF 2779 EO AF 2787 E2 AF 2835 EO AF 2846 EO
2787 AO 2835 EO
5
6
— AF 2682 EO
AG 3398 AO AG 6761 AO
A 1 3147 EO
AF 3150 EO
—
AF AF AF AF AF AF AF
3152 EO 3191 EO 3203 GO 3217 EO 3220 EO
3230 EO 3240 EO
—
AF 3293 EO AF 3315 FO
— — AF 3398 EO
—
H-51
NOK Standard Oil Seals
VQlypeVBlype HEtEftgl
- —1 >3
\N\S\
x n
"Nitrite (NBR)
•The sectional view on the right shows the typical profile of the seal type
VB type
VC type
Dimensions Shalt diameter Outside diameter d
D
70 70 70
90
7 10 5 12 7
74
95
7
75
100 100 95 100 105 110 100 105 110 110 115 115
7
70 70
75
80 80
80 80 85 85 85
85 90 90
95 95 95 100 105 110 110
112 115 115 120 135 140 140 140
165 195 200 220 240
115 120
135 125 150 140 150
7
8 6 7
7 7 9 9 7 8 5 13 9 8 13
8
12 8 15
130
7
135
8 13
140 150 165 165 170 170 190 220 230 255 280
Part Number
Part Number
b
92 92 92 95
70
H-52
88
Width
AG 3503 EO AG 3512 E1 AG 3515 EO AG 3516 AO AG 3519 EO
—
AF 3516 EO
— — —
AG 6762 AO AG 3584 AO AG 3613 A4 AG 3614 EO AG 3723 E1 AG 3729 E1 AG 3739 A4 AG 3752 E1 AG 3830 EO AG 3833 FO AG 3939 A4
—
AG 3926 AG 3932 AG 3982 AG 3990 AG 4010 AG 4059
—
AG 4208 E2
—
AG 4233 EO AG 4275 EO
— —
14
AG 4498 EO
10
— —
14
AG 4542 EO
15
— —
13 15 16
A3 5206 E1 AG 5349 EO
- 118 -
AF AF AF AF
3613 EO 3614 EO 3723 EO 3729 EO
— — — — — AF 3840 EO
EO FO EO EO EO EO
14
12 15
— AF 3512 EO
—
—— AF 3990 EO
—
AF 4059 E1 AF 4166 EO
—
AF 4225 EO
— —
AF 4278 EO AF 4346 EO
—
AF 4539 EO AF 4540 EO
—
AF 4736 E1 AF 5018 EO AF 5054 E2
—
NOK Standard Oil Seals
KCrypeKBType Nitrile rubber (NBR) oil seals
•When ordering, please indicate the NOK part number and the relevant dimensions. ÿCheck the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. Lip Material
NOKA727
H-53
NOK Standard Oil Seals
K
1
JType,
1 Material
KB
Type
Nitrile (NBR)
•The sectional view on the right shows
Tlf Dimensions Shatt diameter Outside diameter d D 25 10 30 15 35 15 28 18 40 19 38 20 38 22 30 45 32 52 38 52 38 55 40 62 62 45 45 62 48 65 50 68 82 64 88 65 115 90
H-54
Width b
KC type
KB type
Part Number
Part Number
AG AG AG AG
7 7 7
6 6
0279 EO 0598 EO 0610 EO 0807 EO
—
AG 1024 EO
7
—
8 8 8 6 8 8 6 9 9 9
AG 1679 F 1
— — — AG 2386 FO
—
AG 2651 F1
—
AG 2847 EO
7
—
14 13
AG 3402 EO AG 3932 EO
-
120
-
— AF 0598 E2
— — AF 0882 EO
— AF 1133 E1
— AF 1902 FO AF 2221 EO AF 2230 E1
— AF 8088 EO
—
AF 2780 EO
— AF 3370 EO
—
"
NOK Standard Oil Seals
TCVlypeTCNrype Nitrile rubber (NBR) oil seal
TON type
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. Lip Material
NOK A795
- 121 -
H-55
NOK Standard Oil Seals
TCVtypeTCNlype H ÿ Material
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shalt diameter Outside diameter D d
7
20
7
7
13
18 22 25 25 28
14
28
7
15 16
30 30 35 35 35
7
17 18
19 20 20 22 22 23 24 25
25 26 27 28 30 30 32
34 35 38 40
42 45 48 50
32
7
7
8 8 8 8
11 11 8
8
8
42
11 8
47
11
48
11
42
7
50 52 54
11 11
55
11
58 62 65
11
68
62
65
90
55 58 60
7
42
70 72 75 78 80 82 85
52
7
11
45
Part Number
Part Number
AP 0090 EO AP 0145 EO AP 0158 FO AP 0279 EO AP 0382 EO AP 0478 EO AP 0526 FO AP 0598 AO AP 0687 FO AP 0760 EO AP 0829 EO AP 0875 EO AP 0997 EO AP 1033 AO AP 1127 EO AP 1148 EO AP 1224 EO AP 1260 EO AP 1314 HO AP 1338 AO AP 1474 FO AP 1518 FO AP 1563 KO AP 1665 EO AP 1709 AO AP 1904 GO AP 1978 FO AP 2085 AO AP 2240 AO AP 2388 AO AP 2507 GO AP 2668 AO AP 2791 FO AP 2864 AO AP 2967 FO AP 3055 GO AP 3154 EO AP 3222 GO AP 3297 FO
7
40 35
42 40 40
TCN type
b
8 8 10 12
H-56
Width
TCV type
11
11
12 12 12
12 12 12 12 12 12 13
-
-
122 -
— — — — — — — — — — — — — — — — — —
—
AP 1338 FO
— — AP 1563 J4
—
AP 1709 H4 AP 1904 F3 AP 1978 G1 AP 2085 G1 AP 2240 G4 AP 2388 E5 AP 2507 H2 AP 2668 G4 AP 2791 GO AP 2864 I 3
—
AP 3055 F3
—
AP 3222 B6 AP 3297 G3 AP 3409 F 1
NOK Standard Oil Seals
TCVTypeTCNlype Nitrile (NBR) •The sectional view on the right shows the typical prolile ol the seal type.
TCV type
TCN type
Part Number
Part Number
Dimensions
Shaft diameter Outside diameter
Width
70
D 95
13
AP 3527 B9
75
100
13
AP 3618 G7
80 85 90
105 110 115 120
13 13 13 13 13
d
95 100 105 110 1 15
125
125 130 135 140
135 140 145 150 155 160 165 170
150
180
170 190
200 225
120
b
-
—
14 14 14 14 14
—
14 14 14
14 16 16
—
-
123
-
AP 3744 K5 AP 3842 H3 AP 3932 B7 AP 3994 AP 4063 AP 4153 AP 4212 AP 4282
B7 BO
HO BO
GO
AP AP AP AP
4346 B7 4399 EO 4451 G3 4498 GO AP 4542 FO AP 4624 GO AP 4795 FO AP 4983 EO
H-57
NOK Standard Oil Seals
TCVlypeTCNlype Fluorocarbori rubber (FKM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal selected before use. Lip Material
H-58
NOK F548
- 124 -
NOK Standard Oil Seals
TCV.JCN Fluorocarbon (FKM)
•The sectional view on the right shows the typical profile of the seal type.
TCV type
TCN type
Part Number
Part Number
Dimensions
Shaft diameter Outside diameter d
10 15 20 25 28 30 35 38 40 45 50 55 60 70
D 25 30
Width b
40
11
45
11
AP AP AP AP
48
11
AP
50
11
55
11
58
11
62 68
11
AP AP AP AP AP AP
72
78 82 95
80
105
90 95 100 110 120
115 120 125 140 150
7 7
12 12 12 12 13 13 13 13 13
0279 G1 0598 F3 1033 H3 1338 G4 1563 1 2 1709 G3 2085 H2 2240 H2 2388 F2 2668 HO 2864 JO
— — — — — — — — —
14 14
-
125
-
— — — — —
-
— — —
AP 2668 02
—
AP AP AP AP AP AP AP AP AP
3055 3222 3527 3744 3932 3994 4063 4212 4346
H8 H4 F1 J6 H3 HO J1 GO H8
H-59
NOK Standard Oil Seals
TC4tvPJB4
Type
Nitrile rubber (NBR) oil seal
ÿWhen ordering, please indicate (he NOK part number and the relevant dimensions. ÿCheck the Guide to Allowable Operating Conditions on pages E-6 and E-7 for relevant information on the seal
selected before use. Lip Material
H-60
NOK A795
- 126 -
NOK Standard Oil Seals
TC4lype,TB4lype Material
—— " y
Nitrile (NBR)
•The sectional view on the right shows the typical profile ot the seal type.
TC4 type
Dimensions Shaft diameter Outside diameter o d
8 10 12 14 15
16 16 17
18 20 20 22 22 22 25 25
18 20 25 24 30 30 32 38 35 35 40 38 40 42 38 40
Width b
Part Number
7
AR 0145 F2 AR 0260 F2 AR 0382 E1 AR 0515 GO
7 7 7 7
— —
10
AR 0693 E1
10
—
7 11
AR 0832 E2
7
AR 1012 F3
8
— —
10
AR 1140 E1
11
—
7
AR 1306 FO
10
— —
8 10 8
25 28
45
28
48 50
11
—
30
11
AR 1709 F1
45
32
52
11
35 35 36 38
52 55 52
12
38 40 40
60 55 62
55
AR 1550 F1
— — —
11 11
8 12 9
A R 2230 E1
12
AR AR AR AR
45
68
12
48 50 50
70 68 72
52
75
55 55
72 78
12 9 12 12 9
55
80
14
60 60 60 65
78
9
82 82 88
12
— — 2390 H1 2668 F1 2791 E1 2847 E1
— — — — — — — — —
12
14 12
-
127
TB4 type
Part Number
— —
——
AR 0600 E1 AR 0687 E5
—
AR 0768 E1
— AR 1012 E2 AR 1032 E1 AR 1133 E2
— AR 1148 F2
—
AR AR AR AR
1314 E2
E8 E1 E1 EO E1 E2 E2 AR 2165 E1 1337 1550 1563 AR 1709 AR 1904 AR 2072 AR 2085
—
AR 2246 E1 AR 2361 E1 AR 2390 EO AR 2668 EO AR 2791 FO
—
AR AR AR AR
2864 2967 3040 3055
E3 EO E3 E2
AR 3063 EO AR 3204 E1 AR 3222 E1 AR 3224 EO AR 3400 EO H-61
NOK Standard Oil Seals
TC4lype,TB4lype H
ÿ Material
w\\ \y
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
TC4 type
TB4 type
Dimensions
Shaft diameter Outside diameter 0 d 65 90 68 95 88 70 95 70 95 75 100 75 100 78 80 100 105 80 110 80 110 85 115 90 120 95 100 125 135 105 135 110 110 140 120 145 150 120 150 125 125 155 155 130 165 140 175 145 150 180 185 160 160 190 190 215 220 245 270 230 290 250
H-62
Part Number
Pari Number
14
— — — — — — — — — — — — — — — — — —
14
AR 4346 G1
AR 3410 E0 AR 3463 F 1 AR 3505 E1 AR 3528 E1 AR 3609 E0 AR 3619 F1 AR 3694 E1 AR 3735 EO AR 3745 E1 AR 3756 EO AR 3843 EO AR 3933 EO AR 3994 El AR 4064 EO AR 4153 E1 AR 4207 E2 AR 4212 E2 AR 4336 E1 AR 4346 F 1 AR 4396 E1
Width b
14
13 12 14
10 14
13 14 14
13 14 14
13 14 14 14 14
14
—
14
AR 4399 E1
14
— — —
14
AR 4624 F 1
14 14
14
—
14
AR 4711 E1
— — —
14 14
20 20
-
128
-
—
AR 4445 EO AR 4538 E2 AR 4581 E 1 AR 4624 G1 AR 4708 EO
—
AR 4971 E1 AR 5201 EO AR 5290 E1 AR 5407 E1
NOK General Oil Seals
TCJrPType
(special PTFE)
Nitrile rubber (NBR) oil seal Acrylic rubber (ACM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal selected before use.
Lip Material
NBR : NOK A103 + NOK 31BF ACM : NOK T302 + NOK 31BF
Reference
The lip of this PTFE seal is easily scratched. Flandle with care. Be sure to refer to Chapter F for information on the design of the shaft and housing.
- 129 -
H-63
NOK General Oil Seals
ÿfPHPI |ym|
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shalt diameter Outside diameter d
D
20 20 25 25
35 40 40 45
30
45
30 35
50 50 55 58 62 62 68 68 72 72 78 82 88
35
40 40 45
45 50 50 55 55 60 65 70
92
70
95 100 105 110 115 120 125 135 140 145 150
75 80 85
90 95
iob 105 110 115 120
H-64
.
Type_
Nitrile (NBR) + (PTFE) Acrylic (ACM) + (PTFE)
...
Part Number
Width b
Nitrile rubber (NBR)
Acrylic rubber (ACM)
8
GJ 1013 P1
GJ 1013 QO
11
GJ 1033 PO GJ 1314 PO GJ 1338 PO GJ 1679 PO GJ 1709 PO GJ 2057 PO GJ 2085 PO GJ 2369 PO GJ 2388 PO GJ 2651 PO
8
11
8
11
8
11 8
11
9 12 9
—
GJ 2847 PO GJ 2864 PO
12
GJ 3040 PO GJ 3055 PO GJ 3222 PO GJ 3400 PO GJ 3519 PO GJ 3527 PO GJ 3618 PO GJ 3744 PO GJ 3842 PO GJ 3932 PO GJ 3994 PO GJ 4063 PO GJ 4153 PO GJ 4212 PO GJ 4282 PO GJ 4346 PO
9
12 12 12 12
13
13 13 13 13 13 13
14 14 14 14
-
130
-
—
GJ 1314 QO GJ 1338 QO GJ 1679 QO GJ 1709 QO GJ 2057 QO GJ 2085 QO GJ 2369 QO GJ 2388 QO GJ 2651 QO GJ 2668 QO GJ 2847 QO GJ 2864 QO GJ 3040 QO GJ 3055 QO GJ 3222 QO GJ 3400 QO GJ 3519 QO
—
GJ 3618 QO
—
GJ 3842 QO
—
GJ 3994 QO GJ 4063 Q0 GJ 4153 QO
GJ 4212 QO GJ 4282 QO GJ 4346 QO
NOK General Oil Seals
SAtJlype
VAJ KA3J
H
(PTFE) seal
SAUtype
KA3J type
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal selected before use. Lip Material
NOK 31BF
Reference
The lip ot this PTFE seal is easily scratched. Handle with care. Be sure to refer to Chapter F for information on the design of the shaft and housing.
- 131 -
H-65
NOK General Oil Seals
SAIJlype, VAJlype, VAJ type
SA1J type
•The sectional view on the tight shows the typical profile of the seal type.
KA3J type
Dimensions Shall diameter Outside diameler D d
20 25 28 30 32 35 40
42
45 50 55 60 62 65 70 75 80
85 90 95
ioo 105 110
72
78 82 85 90 95 100
105 110 1 15 120 125 135
Part Number
GJ 1033 EO
11
— — —
11
GJ 1709 HO
11
—
GJ 1709 10
11
GJ 2085 FO
GJ 2085 HO GJ 2388 HO GJ 2507 FO GJ 2668 10 GJ 2864 10 GJ 3055 KO GJ 3222 KO
GJ 1033 FO GJ 1338 HO GJ 1563 FO GJ 1709 E1 GJ 1904 GO GJ 2085 1 0 GJ 2388 1 0 GJ 2507 GO GJ 2668 JO GJ 2864 JO GJ 3055 FO GJ 3222 1 0
—
—
GJ 3409 GO
GJ 3409 HO
GJ 3527 HO GJ 3618 KO GJ 3744 G1
GJ 3527 GO GJ 3618 LO
11 11
11
12 12 12 12 12 12 13 13 13 13 13 13 13 13 14
140
14
115
145
14
120 125 130
150 155
14
160
14
135
165 170 175 180 190 200 210 225
14
140 145 150 160 170 180
190 200
H-66
40 45 48 50 52 55 62 65 68
Part Number
Width b
240
14
14 14 14
16 16 16
16 20
Part Number
—
—
—
—
—
GJ 2668 F2 GJ 2864 H2 GJ 3055 1 1 GJ 3222 J2 GJ 3297 HO GJ 3409 FO GJ 3527 FO GJ 3618 J1 GJ 3744 J5 GJ 3842 J1 GJ 3932 E2 GJ 3994 G4 GJ 4063 JO GJ 4153 LO GJ 4212 TO GJ 4282 F2 GJ 4346 SO GJ 4399 HO GJ 4451 JO GJ 4498 J1 GJ 4542 10 GJ 4581 HO GJ 4624 JO GJ 4713 HO GJ 4795 GO GJ 4898 HO GJ 4983 GO GJ 5068 10
-
132
—
GJ 3932 JO
—
GJ 4063 HO GJ 4153 E2
— — — —
GJ 4451 GO GJ 4498 10
— —
GJ 4624 10
GJ 4713 FO
— — —
-
GJ GJ GJ GJ GJ
3744 3842 3932 3994 4063
—
HO 10 KO KO 10
—
GJ 4282 HO GJ 4346 1 0 GJ 4399 GO GJ 4451 HO
—
GJ 4542 F 1
— — — —
GJ 4898 EO
—
NOK General Oil Seals
DOlype,DBlype Nitrile rubber (NBR) oil seal Acrylic rubber (ACM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions.
•Check the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal selected before use. Lip Material
NBR :NOK A727 ACM : NOK T303
Reference
If you wish to use the D type oil seal with non-standard dimensions, use two S Type oil seals together instead.
IT!
H-fi7
NOK General Oil Seals
DClype,DBlype Material
Nitrile (NBR) Acrylic (ACM)
If
•The sectional view on the right shows the typical protile of the seal type.
Dimensions Shaft diameter Oulside ciametef d D 35 20 40 22 55 35 70 45 72 50 78 55 60 82 85 60 90 65 92 70 92 70 75 100 80 105 90 115 125 90 120 95 too 125 140 110 145 115 155 125 130 160
H-68
Width b
DC type
DB type
Part Number Acrylic rubber Nilrile rubber (ACM) (NBR)
Part Number Acrylic rubber Nitrile rubber (ACM) (NBR)
10
AW 1015 EO
10 11 15
AW 1140 E1 AW 2085 El
—
18 18
22 13
AW 3237 FO AW 3409 EO AW 3521 FO AW 3522 E1
14 15
20 20 20 28
AW 2678 EO AW 2870 JO AW 3057 EO AW 3225 EO
18
—
AW 3623 EO AW 3935 E1 AW 3946 EO
AW 3997 FO
20 20 22 22 22
22
AW 3747 I 0 AW 3935 FO
—
—
AW 4068 EO AW 4215 E1 AW 4287 FO AW 4401 EO AW 4455 EO
NOK General Oil Seals
Nitrile rubber (NBR) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal selected before use. Lip Material
NOK A727
Reference
The seal lip edge of the OC type seal contacts the ID of the housing bore. Refer to Chapter F for details on machining the bore and the required surface roughness.
- 135 -
H-69
NOK General Oil Seals
Nilrile (NBR) The sectional view on the right shows the typical protile of the seal type.
Dimensions Shalt diameter Wadediameter d
30
38 40 50 60 62 65 95 110 130
135 140 150
H-70
D
50 58 62 72 82 85 88 120
Part Number
Width b 11
AO 1709 E1 AO 2240 EO AO 2390 EO AO 2864 FO AO 3222 GO AO 3297 E1 AO 3400 EO AO 3994 FO AO 4212 F9 AO 4451 GO AO 4498 EO AO 4542 EO AO 4624 GO
11
12 12 12 12 12 13
140
14
160
14
165 170 180
14 14 14
-
136
-
NOK General Oil Seals
QLFYtv, H
Nitrite rubber (NBR) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions.
•Check the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal selected before use. Lip Material
NOK A571
— 137 —
H-71
NOK General Oil Seals
QLFY* !
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
Dimensions
Shalt diameter d
D.
Dp
40 45
70 70 78 79 90 82 88
78
45
50 50 55
55 55 60 60 65
H-72
Width t>2 20
Outside diameter
90
90 100 95
78 86 87 98 90
hi 11
19 20 19 21.8 19 20 26 20 26 19
10 11
10.2 12 10
96 98 98 106
11
102.6
10
14 11 14
"
138
-
Part Number b3
3 2.8 3 2.8
3 2.8 3 3 3 3 2.8
BO 2811 E1 BQ 3119 E1 BQ 3068 E1 BQ 3048 E1 BQ 2199 E1 BQ 3160 E1 BQ 3138 E1 BQ 3118 E1 AQ 3241 E1 BQ 3139 E1 BQ 3137 E1
NOK General Oil Seals
VR
Type
Nitrile rubber (NBR) oil seal Fluorocarbon rubber (FKM) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal selected before use. Lip Material
NBR : NOKA134
ACM : NOK F129
-
139 -
H-73
NOK General Oil Seals
Material
_ Nitrile (NBR)
Fluorocarbon (FKM)
•The sectional view on the right shows the typical profile of the seal type. Note:This oil seal may be used with shaft diameters in the ranges shown. However, we recommend using it at the recommended nominal shaft diameter. ISetMt)
Nominal number stiatdawr
Area required lor seal Required minimum Width Maximum face diameter diameter B
di
diameter
3A
3
2.5
dr + 1
di + 4
VR
4A
4
VR J3 VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR VR
5A
5.5~6.5 6.5-7.5
3
dr+1
di + 6
7A 8A
5 6 7 8
2.7—3.5 3.5—4.5 4.5—5.5
10A
10
12A 13A 14A 16A 18A
12 13 14 16 18
20A 22A 25A
20
VR
o> >
30A 32A 35A 38A 40A 45A 50A 55A 60A
22 25 28 30 32 35 37 40 45 50 55 60
65A
65
VR 70A
70 75 80 85 90 95 100
28A
VR 75A VR 80A VR 85A VR 90A VR 95A VR100A VR110A VR120A VR130A
VR140A VR150A VR160A VR170A
H-74
Usable shaft
110 120
130 140 150 160 170
7.5-8.5 9.5—11.5 1 1.5—12.5 12.5 13.5 13.5 15.5
——
4.5
di + 9
di + 2
15.5-17.5 17.5-19 19—21 21—24 24—27 27—29 29-31
31-33 33-36 36-38 38-43 43-48 48-53 53-58 58-63 63—68 68—73 73-78 78—83 83—88 88-93
6
7
9
dr + 3
di + 12
di + 3
dr+15
dr + 4
di+18
93-98 98-105 105-115
115—125 125-135 135—145 145—155 155—165 165-175
10.5
dr + 4
dr + 21
12
di + 5
dr + 24
-
140
-
Pari Number Fluorocarbon rubber Nilrile rubber (FKM) (NBR)
BM 1201 AO BM 1202 AO BM 1203 AO BM 1204 AO BM 1205 AO BM 1206 AO BM 1207 AO BM 1208 AO BM 1209 AO BM 1210 AO BM 1211 AO BM 1212 AO BM 1213 AO BM 1214 AO BM 1215 AO BM 1216 AO BM 1217 AO BM 1218 AO BM 1219 AO BM 1220 AO BM 1221 AO BM 1222 AO BM 1223 AO BM 1224 AO BM 1225 AO BM 1226 AO BM 1227 AO BM 1228 AO BM 1229 AO BM 1230 AO BM 1231 AO BM 1232 AO BM 1233 AO BM 1234 AO BM 1235 AO BM 1236 AO BM 1237 AO BM 1238 AO BM 1239 AO BM 1240 AO
BM BM BM BM BM BM BM BM BM BM BM BM BM
1201 A3 1202 A3 1203 A3 1204 A3 1205 A3 1206 A3
BM BM BM BM BM
1220 A3 1221 A3 1222 A3 1223 A3
BM BM BM BM BM BM BM BM BM BM BM BM BM BM BM
1226 A3 1227 A3 1228 A3 1229 A3 1230 A3 1231 A3 1232 A3
1207 A3 1208 A3 1209 A3 1210 A3
1211 A3 1212 A3 1213 A3 BM 1214 A3 BM 1215 A3 BM 1216 A3 BM 1217 A3 BM 1218 A3 BM 1219 A3
1224 A3 BM 1225 A3
1233 A3 1234 A3 1235 A3 1236 A3 1237 A3 1238 A3 1239 A3 1240 A3
NOK General Oil Seals
VR Material
Type Nitrile (NBR)
Fluorocarbon (FKM)
•The sectional view on the right shows the typical profile of the seal type.
Note:This oil seal may be used with shaft diameters in the ranges shown. However, we recommend using it at the recommended nominal shaft diameter.
Nomina!number
RsanraxM
(SeeMe)
Area required for seal Required minimum Width Maximum face diameter diameter be B
Part Number
di
Usable shaft diameter
180 190
175—185 185—195
200A
199 200
195-210 190—210
BM BM BM BM
220A 250A 275A
220 250 275
210-235
BM 1245 AO
235—265 265-290
VR 300A
300 325
290—310 310-335
BM 1246 AO BM 1247 AO BM 1248 AO
350 375
335-365 365—390
500A
400 450 500
390-430 430—480 480-530
550A
550
600A 650A
600 650
530—580 580-630
700A
700 725
VR VR VR VR VR VR VR VR VR VR VR
180A 190A 199A
325A
350A 375 A 400A
VR 450A VR VR VR VR VR
VR 725A VR 750A VR 800A VR 850A VR 900A VR 950A
ÿfaldarcter
750
800 850 900 950
VR1000A 1000 VR1050A 1050 VR1100A 1100
...
745-785 785—830 830—875
BM BM BM BM BM BM BM BM
20
dt + 10
1065—1115
1215—1270 1270—1320
VR1350A 1350
1320-1370
VR1400A 1400 VR1450A 1450
1370—1420 1420—1470 1470-1520
1241 AO 1242 AO 1243 AO 1244 AO
1250 AO
1251 AO 1252 AO
1253 AO 1254 AO 1255 AO
1256 AO 1257 AO
BM 1258 AO
920-965 965—1015 1015-1065
VR1250A 1250
(NBR)
BM 1249 AO
875-920
VR1300A 1300
VR1750A 1750
dt + 24
665—705 705-745
1115—1165
VR1700A 1700
dt + 5
630-665
VR1150A 1150 VR1200A 1200
VR1500A 1500 VR1550A 1550 VR1600A 1600 VR1650A 1650
12
Nitrile rubber
1165—1215
— —
1520-1570 1570 1620 1620-1670
dt +45
BM 1259 AO BM 1260 AO BM 1261 AO BM 1262 AO BM 1263 AO BM 1264 AO BM 1265 AO BM 1266 AO BM 1267 AO BM 1268 AO BM 1269 AO BM 1270 AO BM 1271 AO BM 1272 AO BM 1273 AO BM 1274 AO BM 1275 AO BM 1276 AO BM 1277 AO BM 1278 AO BM 1279 AO BM 1280 AO
1670 1720 1720—1770
141
Fluorocarbon rubber (FKM)
BM 1241 A3 BM 1242 A3 BM 1243 A3 BM 1244 A3 BM 1245 A3 BM 1246 A3 BM 1247 A3 BM 1248 A3 BM 1249 A3 BM 1250 A3 BM 1251 A3 BM 1252 A3 BM 1253 A3 BM 1254 A3 BM 1255 A3 BM 1256 A3 BM 1257 A3 BM 1258 A3 BM 1259 A3 BM 1260 A3 BM 1261 A3 BM 1262 A3 BM 1263 A3 BM 1264 A3 BM 1265 A3 BM 1266 A3
BM 1267 A3 BM BM BM BM BM BM BM BM BM BM BM BM BM
1268 A3 1269 A3 1270 A3 1271 A3 1272 A3 1273 A3 1274 A3
1275 A3 1276 A3 1277 A3 1278 A3 1279 A3 1280 A3
U_7*
NOK General Oil Seals
Type MBBBj
Nitrile (NBR)
(FKM) HDHHH Fluorocarbon on •The sectional view the right shows the typical profile of the seal type.
I
ÿ
{\
'
.J «|
SI
Note This oil seal may he used with shaft diameters in the ranges shown. However, we recommend using it at the recommended nominal shaft diameter.
fiKoreaisl
Nominalnumber sltsicares dr
H-76
VR1800A
1800
VR1850A VR1900A VR1950A VR2000A
1850 1900 1950 2000
Area required lor seal
ISteNolc)
Usable shall diameter 1770—1820 1820-1870 1870—1920 1920-1970 1970-2020
Widlh B
20
Maximum lame.er
di +10
-
142 -
dr
+ 45
Pad Number Nilrile rubber Fluorocarbon rubber (FKM) (NBR)
BM 1281 AO BM 1282 AO BM 1283 AO BM 1284 AO BM 1285 AO
BM BM BM BM BM
1281 A3 1282 A3 1283 A3 1284 A3 1285 A3
When ordering, please indicate the NOK part number and the relevant dimensions. I ÿCheck the Guide to Allowable Operating Conditions on pages E-8 and E-9 for relevant information on the seal
selected before use. Lip Material
NOK A103
- 143 -
H-77
NOK General Oil Seals
ZF
Type Nitrile (NBR) J MB •The sectional view on the right shows the typical profile of the seal type.
Nominal
Shaftdiameter
number
d
1 2
3 4
5 5 6
25
21 23 26 28 31 31 38 43 43 43 48
7 8 8
28.58 30 30.16 31.75 34.92
8
35
48
38.1 40 44.45
53 53
7 7
9 9 10 10 11 11 11
12 13 13 13 15 15
16 16 17
17 18 18 19 20
20 21 21
22 22 23 H-78
10 12 15 17 19.05 20
Groove dimensions D
45
49.21 50 50.8 55
57.15 60 60.32 63.5 65 69.85
48
b.
b?
11
3
4.2
13
3 3 3 3
4.2 4.2
3
4.2
4
4
5.4 5.6 5.4 5.4 5.9 5.5 5.4
4
5.7
AZ 0264 EO AZ 0373 EO AZ 0589 FO AZ 0733 FO AZ 0906 EO AZ 0992 GO AZ 1304 HO AZ 1602 EO AZ 1670 HO AZ 1670 HO AZ 1833 EO AZ 2045 GO AZ 2045 GO AZ 2275 EO
16
18 20 21.5 26.5 29.6 31.5 31.2 32.8 35.9 36.5 39.1
4 4 4
4 4
41.5
4
5.4
AZ 2347 GO
45.5
4
AZ 2578 EO
58 67 67 67 72
4
5
7.1
5
6.9
5
6.9 6.9
77
46.5 50.2 51.5 51.8 56.5 58.7
5.5 5.4
77
62
77
61.8 65 67
82 82 89
71.4
70
89 94
72 76.1
94
77
99
99 104 111
80.9 82 87 90.9
111
92
116 116 125 125 130
97 97.2
95.25 100 100.01 105
4.2
4.4
58
74.61 75 79.38 80 85 88.9 90 95
Part Number
di
102
102 107
5 5 5 5 5
7.2
6.8 6.9 7.1
5
6.8
6 6
8.2 8.1
6
8.2
6 6 6
8.1 8.2 8.1 8.1 9.5
6
7 7
9,3
7
9.3
7
9.3 10.8 10.8 10.8
8 8 8
-
-
AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ AZ
AZ AZ AZ
2636 GO 2845 FO 2845 FO 2914 EO 3038 GO 3126 EO 3199 GO 3199 GO 3334 EO 3388 FO 3508 FO 3508 FO 3606 FO 3606 FO 3727 FO 3727 FO 3832 FO 3887 EO 3923 FO 3987 EO 3987 EO 4061 FO 4061 FO 4149 EO
Nominal number lor plumber block
— — — SN504, SN604 S505E, S605E SN505, SN605 SN506, SN606
S507S. S607S SN507, SN607 S507A, S607A S508E, S608E S508S, S608S
SN508, SN608 SS509E. S609E SN509E, SN609 S510E, S610E SN510. SN610 S511A, S611A
SN511, SN611 S511E, S611E SN512, SN612 S513E, S613E SN513, SN613
— S515E, S615E SN515, SN615 S516E, S616E SN516, SN616 S517A, S617A SN517, SN617 S518S, S618S
SN518, S618 S619 S520E, S620E SN520, S620
— — SN522.S622 S522A.S622A
—
NOK General Oil Seals
ZTlype IflflEftEII Nitrile (NBR) •The *oc» orv*
V)0W on (ho right shows the typed profile oIIho »al typo.
Nominal
number
24
26 26 27 28 28 29 30 32 32 34 36
d
0
110 114.3 115 120
135 140 140 149 154
125 125.41
159 164 173
150
183 193 203 213 223 240 250 260
40 42 44
200
46
210 220
48 52 54 56 60 64 68 80
154
130 135 139.7 140
160 170 180 190
38
Groove dimensions
S-iaflcramelef
240
173
286 296
250 260 280
306 332
300
352
320 380
372 432
bi
to
113 116.3 118
8 8 8
123
9
10.7 10.9 10.7 12.2
di
128 127.4 133 138 141.7 143 153 163 173 183 193
9 9 9 9 10 10 10
203 213
11 11
223 243 253 263 283 303
12 12 12 13 13
323
14
383
14
12.2 12.3 12.2 12.2 13.8 13.7 13.7 13.7
10 10
13.7
10 10
13.7 13.7 15.5 15.5 15.5 17.3 17.3
11
-
145
17.3 19 19 20 20
-
Part Number
AZ 4206 FO AZ 4276 FO AZ 4276 FO AZ 4343 EO AZ 4397 EO AZ 4397 EO AZ 4448 EO AZ 4497 FO AZ 4549 EO AZ 4549 EO AZ 4629 FO AZ 4716 FO AZ 4799 FO AZ 4902 FO AZ 4980 EO AZ 5064 EO AZ 5137 FO AZ 5213 EO AZ 5355 EO AZ 5409 EO AZ 5466 EO AZ 5570 FO AZ 5638 FO AZ 5716 FO AZ 5887 EO
Nominal number for plumber block
SN524. S624 S526E. S626E SN526. S626
—
SN528, S628 S528A. S628A
—
SN530, S630 S532E, S632E SN532, S632
SD534. SD3134 SD536. SD3136 SD538, $03138
SD540. SD3140
— — SD548.
SD544. SD3144 SD3148
SD552, S03152
—
SD556, S03156 SD560, S03160 S0564, S03164
—
—
H-79
NOK General Oil Seals
ZF
Type
H ÿ Material
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
Nominal number
3 5 6 7
8 9 10 11
12 13 15 16
17
18 19 20
21 22
23 24 26 27 28
29 30 32 34 36 38 40 42 44
48 52
H-80
Stalldiameter d 15
20 25 30 35
Groove dimensions D
di
b>
26 31 38 43
16 21.5 26.5 31.5 36.5 41.5 46.5 51.5 56.5 62 67
3 3
48
4
4.2 4.2 5.4 5.4
4 4
5.4
4
5.4
4
5.4 6.9 6.9 6.8 6.8 8.1
50 55
53 58 67 72
60
77
65 70 75 80
82 89 94 99
85
104
87
90 95 100 105 110 115 120 125 130
111 116 125 130 135
92 97 102 107
7
113
140
118 123 128 133 138
8 8 9 9 9 9 10 10
40
45
149
72
77 82
Pad Number b?
5 5 5 5 6 6 6 6
8.1
8.1 8.1
9.3 9.3
7 8
8
10.8 10.8 10.7 10.7
150 160 170 180 190 200
159 164 173 183 193 203 213 223 240
193 203
220
260
223
11
12.2 12.2 12.2 12.2 13.7 13.7 13.7 13.7 13.7 13.7 15.5 15.5
240
286
243
12
17.3
135
140
154
143
153 163 173 183
10 10
10 10 11
_
_
AZ 0589 GO AZ 0992 EO AZ 1304 EO AZ 1670 EO AZ 2045 EO AZ 2347 10 AZ 2636 FO AZ 2845 EO AZ 3038 FO AZ 3199 FO AZ 3388 EO AZ 3508 EO AZ 3606 EO AZ 3727 EO AZ 3832 EO AZ 3923 EO AZ 3988 E1
AZ 4061 EO AZ 4149 FO AZ 4206 EO AZ 4276 EO AZ 4342 EO AZ 4397 FO AZ 4448 FO AZ 4497 EO AZ 4549 FO AZ 4629 EO AZ 4716 HO AZ 4799 EO AZ 4902 EO AZ 4980 FO AZ 5064 FO AZ 5213 FO AZ 5355 GO
Nominal number lor plumber block
—
SN505, SN605
SN506, SN606 SN507, SN607 SN508, SN608 SN509, SN609 SN510, SN610
SN511.SN611 SN512. SN612 SN513, SN613 SN515, SN615 SN516, SN616 SN517, SN617 SN518, S618 S619 SN520, S620
— SN522, S622
—
S524, S624 SN526, S626
—
SN528, S628
—
SN530, S630
SN532. S632 SD534, SD3134 SD536, SD3136 SD538, SD3138
SD540, SD3140
—
SD544, SD3144 SD548, SD3148 SD552, SD3152
NOK General Oil Seals
SBBlype,dfamlterSBlype Nitrile rubber (NBR) oil seal
Large-diameter SB Type
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll for relevant information on the seal selected before use. Lip Material
NOK A941 When ordering an oil seal with an attached spacer, please indicate the spacer width (H) alter the NOK part number. Example: AB 5660 AO
Spacer attached (H=4)
Special order
Quantity of spacers
Nominal outside diameter of oilseal Up to 500 Over 500 to 800 Over 800
Number of spacers (equally spaced) 4 6 8
- 147 -
H-81
NOK General Oil Seals
SBBlypeÿ™'erSBType IJiBEfffll
b
C
/ / / / /
w
•The sectional view on the right shows the typical profile ot the seal type.
J'f "
\\\\\
Nitrile (NBR) o
t
•6
A
\
SBB Type
Large-diameter SB Type
Dimensions
Width
Part Number
Part Number
d
D
b
304.80 305 310 311.15 315 317.50 320 320 320
355.60 355 370 349.25
25.4 23 25 17.5 16 23 20 25 25 25.4 25
——
AB 5653 EO AB 5660 AO
Shatt diameter Outside diameter
320.68 325 330 330
340 340 342.90
350 350
350 360 360 361.95 365 370
370 375 380 390 390 395 400 400 400.05 406.40 410 410 415 419.10 420 420
H-82
355.60 355.60 358 360 380 371.48 375 370 390 380 400 381.00 390 400 410 400 420 412.75 405 415 430 420 440 430 450 430
450 460 438.15 457.20 450 470
475
457.20 470 480
— —
AB 5675 AO AB 5681 EO
-
AB 5688 EO
—
AB 5702 EO
—
AB 5709 EO
—
AB 5712 AO
—
AB 5718 AO
—
AB 5726 AO
—
AB 5737 AO
—
AB 5746 AO
20
— — —
25
20 25 17.5 20
AB 5753 AO AB 9104 EO AB 5784 AO
— — —
AB 5795 EO AB 5814 EO AB 5817 EO
25 25
—
17
AB 5841 AO
AB 5822 E4
—
25
— AB 5846 AO
—
AB 5850 EO
22.2 18 20 25 18 25 18 25 18 15.6 25 17.5 23 20 25 23 19 20 25
—
AB 5855 EO
— —
AB 5866 AO AB 5868 EO
—
AB 5876 A5
— —
AB 5888 AO
AB 9434 EO
— — — —
AB AB AB AB
5935 5947 5952 5955
—
AB AB AB AB E1 E1 AO E2
AB 5965 EO
— AB 5978 AO
-
148
-
5909 AO 5917 A5 9388 EO 5930 AO
— — — —
AB 9406 E1
—
AB 5971 EO
—
*|
NOK General Oil Seals
SBB
ÿa™ter SBType
Type,
t>
\Y
Nilrile (NBR)
r
b
\\}
" •?
•The sectional vew Oh the cght shows
v\
%
the typical prohto ol the seal type
5
n Dimenswns Shaft diameter Outside diameter 0 d 470 430 480 430 438.15 476.25 440 480 440
440 450 450 454.02 460 469.90 470
490 500 480 510 504.82 520
Width b
25
25
571.50 580 590
22.2 22
546.10 550
596.90 610
558.80 560
609.60
20.6 25 22.2 22 25 22 25 25 25 23 25 23 22.2 20 25
540 520.70
482.60 490 500 500 510 520
560 570 570 580 600 610 620 620 622.30
610 620 620 630 640 660 670 670 680
630
673.10 670
635
685
—
AB 6022 EO AB 6025 AO
—
AB 6046 EO
AB 6057 AO
— ——
AB 6079 AO
AB 6096 AO
—
—
AB 61 15 El
—
AB 6141 EO AB 6144 AO AB 6159 AO AB 6166 AO
—
AB 6175 EO
—
— —
25
AB 6199 E5
AB 6214 EO AB 6223 AO AB 6226 EO AB 6235 AO AB 6236 AO
— — — — —
AB 6281 AO
AB 6292 AO AB 6301 AO
- 149 -
— —
AB 5994 A9
— —
AB 6026 AO
19
580
480
Pad Number
AB 6014 EO
520 520.70 530 540
530 530
Part Number
19
550 540 560 560 560
470 480
Large-diameter SB Type
AB 5993 AO
25 23 22 25 22 25 19 25 20 25 25 20
520.70 520
SBB Type
20 25 20 25 25 17.5
\
—
—
AB 6062 EO
— AB 6092 EO AB 9444 EO
—
AB 6107
E1
AB 6111 AO
— — — ——
AB 6125 E3
AB 6173 AO
—
AB 6183 EO AB 6193 AO
—
AB 6207 AO
— — — —
—
AB 6245 AO AB 6267 AO
—
AB 6284 AO AB 9528 EO AB 6288 EO
—
— H-83
NOK General Oil Seals
SBBType.ÿmlterSBType IflflflWI
ÿ
Nilrile (NBR)
—
•The sectional view on the right shows
g ÿ*
the typical profile of the seal type.
A
\ SBB Type
Large-diameter SB Type
Part Number
Pari Number
—
AB 6303 AO
Dimensions
Shaft diameter Outside diameter d
640 650 650 660.40 670 673.10 685 685.80 690 698.50 700 710
690 710 720 711.20 720 711.20
710
770
Width b 25
711,20
762.00
720 723.90 730 735 740 749.30 750
768 774.70 790 795 790
25 25 22.2 25 19 25 22.2 20 22.2 20 25 25 22.2 22 22.2 25 25 25
825.50
22.2
760 774.70 780
800 806.45 810 838.20 840 850 850.90 870 876.30 882.65 890 900 914.40 940 950 952.50 H-84
D
745
736.60 730 749.30
750 760
800 813 825.50 830 870 857.25 870 889.00 910 900
914.40 920 927.10 933.45 950 950 977.90 1000 1000 1003.30
AB 6313 AO
— AB 6323 El
— AB 6335 EO
— —
—
AB 6315 AO
—
AB 6330 E5
— AB 9001 E3 AB 6340 EO AB 9036 E4 AB 6353 EO
— AB 6366 AO AB 6369 AO
AB 6375 EO
—
AB 6388 EO
— —
AB 6398 AO AB 6406 EO
— —
25
22 22.2 25 25
AB 6437 EO
— —
AB 6463 EO
22.2
— — —
25
22.2 25 25 22.2 25 22.2
AB 6488 AO AB 6496 EO AB 6507 AO AB 6512 EO
—
22.2
AB 6519 AO AB 6527 AO
25 25
—
25.4
AB 6544 AO
25 23 22.2
—
AB 6551 E2
-
150 -
AB 6356 E7
— — —
AB 6384 EO
—
AB 6392 AO AB 6394 AO
— —
AB 6407 E5 AB 6419 AO
— AB 6446 AO
AB 6459 AO
—
AB 6465 AO AB 6483 EO AB 6485 AO
— — — —
AB 6515 E2
— — AB 6535 EO
—
AB 6546 A9
—
vf
*
NOK General Oil Seals
ODD LargeÿUUlypeÿiameier Material
SB
Type
's N '
\\\\\
\\
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
a
*
l\
t •»l "t SBB Type
m
"Tlf
Large-diameter SB Type
Dimensions
Shalt diameter Outside diameter d D 960 1020 1035.05 971.55 1050 1000 1000 1060 1020 1070 1070 1030 1130 1080 1155.70 1092.20 1155.70 1104.90 1123.95 1181.10 1136 1186 1270 1210 1320 1270 1400 1330 1400 1460 1549.40 1498.60 1720 1670 1820 1890
Part Number
Width
Part Number
b
25 25
AB 6553 AO
23
AB AB AB AB
AB 6564 EO 6576 AO 6577 E1 6589 AO 9707 E3 AB 9763 E4 AB 6619 EO AB 6624 E1
25
25 25 20 22.2 22.2 22.2 25 20 25
AB 6631 EO AB 6633 EO
—
30 25 22.2 22.5
—
30
-
151
-
AB 6650 EO AB 6662 EO AB 9701 E3 AB 9792 E2 AB 6681 EO AB 9795 EO AB 9720 EO
H-85
NOK General Oil Seals
Large- Tl) diameter | Diype Nitrile rubber (NBR) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll lor relevant information on the seal selected before use. Lip Material
H-86
NOK A941
- 152 -
NOK General Oil Seals
Large- jn
diameter |DType Nitrile (NBR) •The sectional view on the right shows the typical profile of the seal type.
Tlf Dimensions
Shaft cBameter Outsidediameter d
D
310 320
370 360 380 365 370 390
320
325 330 330 340 350 360 360 370 370
380 390 390 400
410 420 425 430 430 440 450 450 465 480 490 500 540 550
560 580 600 640 660 710 810 820
Width b 28 20 28 25 25 28
28 28
400 410 400 420
25 28 20 28
415
430 440 440 450 460 470
28
470
25 28 28 28 28 22 20
480
25
500
25
500
25
480 475
510
28
510 540 550 560 600 610 620 640 650 690 740
20 28 28 28 25 28 30 30 25 25 45
770
30
870 900
35
25
-
153
-
Part Number
AD 5676 AO AD 5711 A4 AD 5720 AO AD 5734 E2 AD 5747 E1 AD 5754 AO AD 5785 AO AD 5823 AO AD 5843 E1 AD 5847 AO AD 5866 EO AD 5869 AO AD 5889 AO AD 5908 AO AD 5910 AO AD 5931 AO AD 5956 AO AD 5979 AO AD 5984 EO AD 5993 AO AD 5994 AO AD 6026 EO AD 6055 AO AD 6058 AO AD 6085 EO AD 6112 EO AD 6126 EO AD 6145 AO AD 6195 AO AD 6208 A4 AD 6227 EO AD 6246 E2 AD 6263 E1 AD 6303 E1 AD 6322 E1 AD 9651 E1 AD 6465 E1 AD 6471 E1
H-87
NOK General Oil Seals
MG
Nitrile rubber (NBR) oil seal
••
When ordering, please indicate the NOK part number and the relevant dimensions. Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll for relevant information on the seal selected before use. Normally, these seals are shipped without any radial cuts. A description for making radial cuts is on page 65.
•
Lip Material
H-88
NOK A103( Press-tit Area A103) NOK A104( Press-tit Area A104)
- 154 -
.
NOK General Oil Seals
MGype
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
Dimensions
Shall diameter Outsidediameter d
D
17
35
19 20 22 25 25 25 28 30 32 35 35
40
44 42 45 49 50
55 54 52 59 60
36
58
38 40 40 40
60 62 65 67 66 65 68 70 72 75 72 75 77 80 78 80 82 85 80 82 87
42 45
45 45 45
45 50 50 50 50
55 55
55 55
58 60 60 60 65 65 70 70 70
90
92 95 86 92 100
Width b 7 6
12 12 11
12 10 8 12 11
12 12 10 12 12 12 14
12 12 12 14 14 14
12 13
14
Pari Number
AM AM AM AM AM AM AM AM AM AM AM AM AM AM AM
0759 E1 0882 AO 1042 AO 1149 AO 1338 AO 1358 EO 1362 E1 1574 E1 1728 AO 1904 AO 2101 EO 2107 AO 2169 A5 2246 E1 2390 EO 2403 AO 2413 EO
AM AM AM 2512 AO AM 2659 E1 AM 2668 EO AM 2677 EO AM 2686 EO AM 2692 AO AM 2864 GO AM 2876 EO AM 2878 EO
14
AM 2888 AO
12
AM AM AM AM AM AM AM AM AM AM AM AM AM
12
14 14
14 12
14 14
14 16 9
12
16
Dimensions Shaft diameter Outsidediameter d D 75 100 105 75 80 105 1 10 80 1 10 85
3055 EO 3062 E1
3066 EO
3072 3156 3222 3238 3244 3411
3415
3497 3519 3533
AO AO
AO
EO
FO
GO AO EO E1 AO
-
155
-
85 90
95 100
100 100 105 105
105 105 110 110
110 1 15
1 15 120 120
120 125 125
125 130 130
130 135 135 140 140 140 145 145 150 150 155 160
115
120 125 130 133 135 138 140 140 140 140 143 145 145 150 150 153 155 155 158 160 160 163 165 168 170 173 175
177 178 180 185 186 191 195
Width b
Part Number
13 16 13
AM 3618 EO
16
13 16 16 16 16 18 15 18 13 15 18 12
18 18 18 18
14
18 18
14
18 18 14 18
18 18 18 18
18 16 18 18 18
20 20 18
AM 3632 AO AM 3744 E1 AM 3757 AO AM 3842 EO AM 3853 AO AM 3940 AO AM 4002 AO AM 4076 AO AM 4077 EO AM 4079 FO AM 4159 EO AM 4160 AO AM 4161 EO AM 4163 EO AM 4210 EO AM 4219 EO AM 4223 AO AM 4285 AO AM 4293 EO AM 4346 EO AM 4352 EO AM 4356 AO AM 4399 EO AM 4402 EO AM 4405 AO AM 4451 EO AM 4459 FO AM 4461 AO AM 4501 EO AM 4505 AO AM 4550 FO AM 4552 AO AM 4553 EO AM 4586 EO AM 4587 AO AM 4630 AO AM 4633 EO AM 4675 AO AM 4717 AO H-89
NOK General Oil Seals
ÿ
Nilrile (NBR)
\\\\\ \
\ /
o
•The sectional view on the right shows the typical profile of the seal type.
l\
> si Dimensions
Dimensions
Shaft diameter OulsklediaiTielei d
160
165 170 170 175 180 180
190 195 200 200 200 210 210 215
220 220 230 235 240 240 250 250 255 260
260 260 265 270 275 280 280 290 300
300 310 315 315 320 325
H-90
D 196 201 206 210 211 216 220 230
231 230 239 240 249
265 254 260 260 269 275 280
295 290 295 300
305 310 315 315 320 320 325 325
335 345 350 355 360 365
370 375
Width
Part Number
b 20 20
20 20 20 20 20 20 20 16 22 20 22 23 22 20
22 22 22 20 25 20 24
24 22 24 24
24 24 24 22 24 24 22
25 24 20 25 25 25
AM 4718 EO AM 4747 AO AM 4802 FO AM 4806 AO AM 4850 AO AM 4907 HO AM 4911 AO AM 4988 AO AM 5023 AO AM 5054 EO AM 5063 FO AM 5068 AO AM 5135 AO AM 5146 E1 AM 5171 AO AM 5215 AO AM 5216 FO AM 5287 AO AM 5320 EO AM 5352 AO AM 5359 EO AM 5407 AO AM 5408 EO AM 5440 AO AM 5465 AO AM 5467 EO AM 5469 EO AM 5490 EO AM 5521 AO AM 5537 AO AM 5565 AO AM 5566 EO AM 5591 AO AM 5631 AO AM 5635 FO AM 5672 AO AM 5689 AO AM 5694 EO AM 5717 AO AM 5737 EO
d
D
Width b
330 340 345 350 350 355 360 370
380
25
390
25 25 25 25.4 25 25 25 25 25 25 25
Shaft diameter Outside diameter
380 390 390 400
410 410 420
430 440 450 455 460 470
475 480 480 495 500 500 520 540 550 560
570 580 600 600 610 620 635 640 650
390 400 400 405 405 420
440 435 450 450 460 470 470 480 490 500 510
25
25 30 30 25 25
515
525 525 530 540 545 550 560
570 590 600 610 630 630
650 670 660
670 705 702 705
NOK _ >56 *-: Lip material is
A104
28 28 30 25
30 25 30 20
25 24 30
25 30 30 25 30 30 30 28 30
29 20
Part Number
AM 5750 AO AM 5782 AO AM 5803 AO AM 5817 AO AM 5818 AO AM 5829 AO AM 5844 AO AM 5867 AO AM 5888 AO AM 5907 EO AM 5909 AO AM 5927 AO AM 5953 AO AM 5955 AO AM 5975 AO AM 5995 AO AM 6025 AO AM 6055 AO AM 6063 EO AM 6078 AO AM 6095 AO AM 6104 AO AM 6108 AO AM 6111 AO AM 9129 E1 AM 6142 AO AM 6144 AO AM 6169 AO AM 6194 AO AM 6205 E1 AM 6224 F 1 AM 9040 AO AM 6243 AO AM 6264 AO AM 6270 AO AM 6280 AO AM 6285 AO AM 6302 A5 AM 6304 A5 AM 6312 AO
*
* * * * * * *
* * * * * * * * * *
*
* * *
*
NOK General Oil Seals
MG Materia!
Type
Nitrile (NBR)
•The sectional view on the right shows
"Hf Dimensions
Shall diameter Outsidediameter d
D
Width b
670
720
680
740
690
750
700 710 720 740 750
770 760 780 800 810
760
820
25 30 30 30 25 25 25 30 25
770 780 800 830 870
830
30
840 860 900 940
900
950
30 30 30 30 25
930 1100 1270 1400
1000
30
1170 1334 1476.2
30 25 19.1
Part Number
AM 6330 ZO AM 6339 A7 AM 6344 AO AM 6360 AO AM 6366 AO AM 6386 EO AM 6399 E1 AM 9603 EO AM 6420 E1 AM 6436 E1 AM 6447 A5 AM 6458 A6 AM 6476 A5 AM 6508 AO AM 6527 AO AM 6540 A5 AM 9761 EO AM 6664 EO AM 9793 EO
*
* * * * * * *
* * * *
* * * *
ÿ : Lip material is NOK At 04
-
157
-
H-91
NOK General Oil Seals
WTieWTT,e Nitrile rubber (NBR) oil seal ÿHandling of WTT Type •The WTT Type oil seal issecured with a lightening collar band at its cut point. Any mounting diameter can be selected. •The maximum mounting diameter is 1500 mm. and seven mounting lengths arc available (35. 40. 45, 50, 55, 70. 75 mm). (For your reference, the product sixes currently available are shown on page H-94.) •The WTT Type oil seal cannot completely prevent the entry of rolling fluid or cooling water. Provide a drain at the bottom.
•Position the bolt for the collar band at a 45degree angle from the drain. Example TÿttriogCoU'Mfvl WTTTypo
The WT Type oil seal cannot completely prevent the entry of rolling fluid or cooling water. Provide a drain at the base.
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll for relevant information on the seal selected before use.
Lip Material
H-92
NOKA103
- 138 -
NOK General Oil Seals
Nitrile NBR) •The sectional view on the right shows the typical profile of the seal type.
777777777,
'////
& Consult
us for the positional relationship between the bolt hole and drain.
Insidediameter Outside rSameter d
D
190 227 320 325 330 340
244 280 380 385 400 435
350
414
380 420 430 435 440 440
455 480 490 489
440
458 580 650 680 705 710 740 760 760 870 932
962 1000 1052 1 120 1148 1310 1704
510
514 530 540
650 760 778
830 810 840 842
898 975 1042 1035 1108 1134 1230 1240 1400 1795
Mounting bolt pattern diameter
Dimensions Width
bi 19 35 30 30 35 30 35 35 26 26 25.4 26 35
50 26 51 45 45 76.2 46 56.2 35
b? 5 5 8
bi 0 0 0
8
0
5
0
5 5 8 5 8
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
5
8 5 10 8 10 12 12 11 10
40
10 8 10
40
10
24 46.8 38 37 25
5 6 10 9 5 5
40
50 62
n
(Nuircer
oicranes)
8 8 6 6 8 8
8 8 8 12
dz 8
9 9.5 9.5 9.5 9 10 12 10 10
8
To
12 8 8
12 14
12
11.5
12 12
12
9
12
12 14
8
18
14
0
8 16
18
0
12
11
0 0 3 3 0
10 12 6 24 12
5
24
12 15 12 12 14 12
16 22
14
9
5 5 5
24
14
12
5
18
11
-
159 -
10
Part Number
AZ 4992 EO AZ 9301 EO AZ 9375 E1 BZ 8039 EO AZ 9497 E4 AZ 9378 E1 AZ 9091 FO AZ 9594 EO AZ 9401 EO AZ 5999 EO AZ 6011 EO AZ 6030 EO AZ 6031 FO AZ 6033 EO AZ 6071 EO BZ 8338 EO AZ 6317 EO AZ 9043 EO AZ 6362 EO AZ 6373 EO AZ 6400 EO AZ 9698 EO AZ 6424 EO AZ 9608 EO BZ 9506 EO BZ 8919 EO AZ 6579 EO BZ 9839 EO AZ 9704 E2 BZ 9826 EO AZ 9737 EO AZ 9087 EO
P.C.D
jtd,
225 260 355 360 380 415 395 430 462
— — — — — — — — — — — — — —
472
470 490 490 500 510
626 730 740
790 767 805
812 866 940 1015 1010 1065
—
— — — —
—
— — — —
970
983
A
18 18 19
20 22
32 22
22 18
20 21 18 22
36 19 40 39 25 65 27 43 24
38 27 23 44
33
1115
—
1078
42
1200
1169 1 180
27 49
1344
39
1725
37
1215
1370 1770
...
H-93
NOK General Oil Seals
WTTt,, Material
Nitrite (NBR)
•Tlie sectional view on the fight shows the typical prolilo ol the seal type.
Dimensions Inside dameter Oi4s«je dametec 400
416
440 450 450
456 466
460
476 536 551 561 562 566 606 611
520 535 545 546 550
590 595 600 605 625 655 700
616 621
770
641 671 716 731 736 786
780
796
790 800 835 850 875 900 940 962
806 816 856
715
720
990
1020 1030 1060 1070 1090 H-94
466
866
89 i 916 956 978
1006
"1036"" 1046 1076 1086
1106
Width A b b35 21 26
35 21 26 35 21 26 40 26 24 40 26 24 35 21 26" 35 21 26 35 21 26 35 21 26 35 21 26 50 36 24 35 21 26 40 26 24 35 21 26 35 21 26 40 26 24 45 31 24 40 26 24 35 21 26 50 36 24 45 31 24 70 56 24 40 26 24 75 40 40 45 31 24 40 26 24 50 36 24 50 36 24 35 21 26 40 26 24 40 26 24 35 21 26 40 26 24 50 26 24 45 31 24
Dimensions Inside tfemeter Owstle ifemetef d D
Pari Number
BZ 8075 AZ 6019 BZ 8083 BZ 8347 BZ 8348 AZ 9029 AZ 9291 AZ 9567 BZ 8383 BZ 8349 AZ 9527 AZ 6260 BZ 8372 BZ 8352 AZ 6290
EO
1100 1120
EO EO EO EO
1145
1165 1180
EO
1210 1294 1524
El E1
EO EO EO EO EO EO EO
BZ 8317 EO
AZ AZ AZ AZ AZ AZ BZ
9064 6382 9646 6433 9665 9678 9206
EO EO EO EO
E1 EO
EO
AZ 9693 EO
AZ 9622 EO AZ 6511 EO AZ 9041 EO AZ 6543 EO AZ 9619 EO AZ 6570 E1 AZ 9794 EO BZ 9818 EO AZ 6601 EO AZ 9733 EO AZ 6615 EO
-
160
-
1116 1136 1161 1181 1196 1226 1315 1545
Width b b: 45 31
A
24 24 24
55 50 50 50
31 41 36 36 36
75
40
40
75
40
40
45
24 24 24
Pari Number
AZ 9785 AZ 6627 AZ 6635 AZ 6639 AZ 6642 AZ 6649 BZ 9803 AZ 6683
EO EO EO EO EO EO EO EO
NOK General Oil Seals
OKCSlype Nitrile rubber (NBR) oil seal
WT Typo
OKC3 Typ« SSSTypc
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll for relevant information on the seal selected before use. Lip Material
NOK A103
- 161 -
H-95
NOK General Oil Seals
0KC3
H ÿ Material
_ Type Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
Dimensions Shaft diameter Outsidediameter d
D
274
304 400 440 470 470 480
360 400 420 420 440 465 485 490 540
560 580 610 640 650 680 710 710 720 740 750 770 780 790 800
820 850 880 900 930 940 980 1000 1040 1080 1090 1110 1200 1204 1530
... H-96
Pari Number
Width b 15
AO AO AO AO AO
20 20
20
530 580 600 624
25 25 25 25
660
AO 9517 EO AO 6310 EO AO 9574 EO AO 6364 E2 AO 6366 EO AO 6385 E1 AO 9616 EO AO 6407 EO AO 6435 EO AO 6445 EO AO 6451 EO AO 9090 EO AO 9631 EO AO 6489 EO
18
685 700 720 750 760 770 780 800 810 820 840 840 870 900 930 950
25
25 20 25 25 30 25 29 18 25 20 25 30 25 25 25 25 25 28 25 25 25 25 30
980 990
1030 1040
1090 1130
1 150 1160
1250 1254 1590
BO 9220 EO AO 6527 E1 AO 9612 EO BO 9512 EO AO 6566 EO AO 9075 EO AO 6596 EO AO 6613 EO AO 6616 EO AO 9708 E1 AO 9280 E1 AO 9755 EO AO 9791 EO
25 30
-
162
EO
EO EO EO EO AO 6022 EO AO 6084 EO AO 6120 EO AO 9499 EO AO 9546 E1 AO 6220 E1 AO 6242 E2 AO 6279 FO
20 25 20 25 25
505 525
9325 5842 5923 5971 5973
-
NOK General Oil Seals
Type (Mogoil seal)
H
Nitrile rubber (NBR) oil seal
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll for relevant information on the seal selected before use. Lip Material
- 163 -
H-97
NOK General Oil Seals
MO
Type
H H Material
Nitrile (NBR)
•The sectional view on the right shows the typical profile of the seal type.
MOX Type
MOD Type
Part Number
Part Number
Dimensions
Shaft diameter Outside diameter D
b
140 165
180 214 261 294 341
35 40
201
236 272 310 367 415 524 670 706 745
750 780 818 860 895 896 925 960 960 995 1025 1025 1052 1175
1250 1300 1440 1590
H-98
Width
d
388
444
540 650 794 826 900 900 935
965 1010 1044
1048 1075 1116 1118 1160 1 160 1174
1232 1320 1400 1470
1610 1760
41
46 50 48 50 73 83 84 83 93 110 93 93 93 93 89 93
93 93 95 93 88 93 93 100
108 108 108
AN AN AN AN
4556 4750 5091 5330 AN 5528 AN 5679 AN 5857 AN 9044 AN 6178 AN 9597 AN 6363 AN 6403 AN 6414 AN 6448 AN 9046 AN 6502 AN 6523
—
E1 E1 E1 E1 E1
E2 E1 E1 E1 EO E1
F1 EO E1 E1 E1 E1
AN 9047 E1 AN 6556 E1
—
AN 6573 E1
AN 6591 EO
—
AN 9748 EO
AN 6641 E2 AN 9048 E1 AN 9051 E1 AN 9728 EO AN 9731 EO
— — — — — — —
——
— — — — — — — — BN 9210 HO
Bearing size 8
'A" -72 10"-72 12 '-72 14"-72
16"-90 18"-90 21" -90 24" -90 30"-90 38"-84 40"-90 42"-90 42" -90
44"-90 46 "-90 48"-90 50 "-72 50 "-75
— —
52"-72
BN 9806 HO
54"-72 56"-90
— — BN 9815 HO
— — — — — —
54"-72
56"-81 56"-75 60"-72 64"-72 68"-81 70"-80 76"-72
82"-72
NOK General Oil Seals
MOYlypa (Meseta seal) Nitrile rubber (NBR) and hydrogenated nitrile rubber (HNBR)
oil seal
MOY2
woy;
MOY1
WOYType
•1
•When ordering, please indicate the NOK part number and the relevant dimensions. •Check the Guide to Allowable Operating Conditions on pages E-10 and E-ll for relevant information on the seal selected before use. Lip Material
NOK G418(Seal ID mounting area A989)
- 165 -
H-99
NOK General Oil Seals
MOY
MOY1
ru»*0
Type
Material Hydrogenated Nitrite(HNBR) Material Nitrile (NBR) [
_
•The socnooai vew on tne nghl shews the typtcal profile of the seal type
So* 10
a
(nor*
Dimensions Shalt diameter
OjtsJcda-ete'
d
D
761
884
774
884 970 970 1040
840 851 919
933 988 1004 1063 1082
1040 1120 1120
1200 1200
Width b
Pan Number
Seal Type
Bearing size
38.5 46.5
8N 8916 F1 8N 8917 F1 BN 9223 E2
MOY 1 MOY2
33" X 28"
53
BN 9224 E1 BN 9517 E1
47
44.5 41.5 55 50 43.5 60.5
BN 9518 E2 BN 9528 F1 BN 9838 E3 BN 9833 E3 BN 9832 E2
T
H-100
-
166
-
MOY 1 MOY2 MOY1 MOY2
MOY 1 MOY2 MOY 1 MOY2
36" x 30" 39" x28" 42" x30"
45" X34"
Leakage Troubleshooting Guide
ÿTroubleshooting Guide 1-2
- 167 -
1. Causes of Seal Leakage
1-2
2. Misdiagnosis Examples
1-8 -
1-1
I. SEAL LEAKAGE TROUBLESHOOTING GUIDE ÿCauses of Seal Leaks
Figure 1: The Two Points of Origin of Seal Leakage
If oil leakage is discovered, first determine the point of origin of the leak. The leaks may not have originated from the oil seal, and residual oil or grease on the seal itself can also be mistaken for a leak. Seal leaks are divided into two groups: leaks from the sealing lip and leaks from the press-fit area of the hous¬ ing, as illustrated in Fig. 1. Typical causes of each group of leaks are shown in factorial diagrams (Figs. 2 and 3). Examples of improper diagnosis is discussed on page 1-8.
Press-fit Area
Seal lip
Figure 2: Lip Leakage Diagnosis
. The
lip has worn out.
•Insufficient lubrication
The oil seal is problem-freej
The lip is scratched.
I The lip has hardened.
•Presence of foreign
•Abnormally high temperature
matter
•Excessive internal
pressure •Excessively rough shaft
•Excessive internal pressure •Insufficient lubrication
•Improper assembly •Improper handling •Incorrect shaft chamfer •Presence of foreign
The lip turned-under. •Incorrect shaft chamfer •Improper assembly •Excessive internal
pressure
matter
surface
•Scratched shaft or improper diameter •Incorrect shaft direction •Excessive shaft offset or runout •Worn shaft •Reversed seal installation
Leaks
The lip has unevenwear.) •Excessive
shaii o'ise!
•Cocked seal installation
-
, J . The lip's waist [The lip has softened.) l("e« area) Is -broken.) ÿIncorrect
lip material
•Improper assembly •Excessive internal pressure
The oil seal is The garter spring has
become disconnected.;
deformed.
# Improper assembly
•Incorrect shaft chamfer •Improper assembly
Figure 3: Press-Fit Area (OD) Leakage Diagnosis
The oil seal is cocked. •Improperly sized bore diameter •Incorrect shaft chamfer •improper assemble jig
The oil seal is problem-free. •Scratched bore or improperly sized bore
•Excessive bore surface rough¬ ness
Leaks
The oil seal is deformed.
The seal OD is damaged
or chafed.
•Improper assembly jig
•Improper sized bore diameter •Incorrect shaft chamfer •Improper assembly jig
1-2
- 168 -
c
Leakage from the Seal Lip
)
Table 1: Leakage from the Seal Lip
Factor
Cause
Failure mode
The lip edge is severely worn, and the •Abnormally high wear has occurred trom the friction of insufficient lubrication. The amount of lubricant was below the specified level, and therefore did not reach the sealing lip.
worn surface is dull and rough.
Solution
•Add lubricant up to the specified level and operate.
•The machine design did hot allow adequate oil flow to the seal lip.
Worn lip surlace
•As a quick solution, change to a double-lip seal model, and apply Examples: grease between the lips. •There is a slinger in front of the sealing lip. •As a permanent solution, change •There is a drain in front of the the structure near the oil seal to sealing lip. allow lubricant to freely flow to •If a spray/mist lubrication method the seal lip area. is used, the lube did not reach
the seal until several minutes after stan-up. The lip edge is severely worn, and there are grooves or indentations the worn surface.
•Since a shaft or seal contaminat¬ ed with cutting chips was used, the contaminants were embed¬ ded in the sealing lip. Machining chips. dirt, or dust
Groovingr indentations
•During assembly, use particular care to ensure that the oil seal or shaft is not contaminated with
dirt or sand. •Since the oil seal was assembled in the presence of dirt or dust, the contaminants became •Clean the machine with the same embedded in the sealing lip. lubricant sealed in the machine. •Since the seal or housing was assembled with liquid gasket sealant, the sealant contaminat¬ ed the shaft or seal..
•Since a seal or shaft with paint
stains was used, the paint con¬ taminated the shaft/seal.
The lip edge is severely worn, and the wear band is concave.
V7. ;r
parti
•Pressure at the oil seal area exceeded the design pressure.
si '"-see i
The lip edge is severely worn, and there are circumferential grooves on the wear band.
•The seal lip has severe wear
since the shaft finish was rougher than the specified range of 0.8 to 2.5 mm Rmax.
- 169 -
•Change to a high-pressure type oil seal.
•Provide a vent breather to maintain proper pressure.
•Smooth the shaft surface to 0.8 to 2.5mm Rmax with emery paper (#240 or similar). Do not oscillate the emery paper axially along the
shaft. •Replace the shaft with one having the specified finish roughness.
1-3
Leakage from the Seal Lip
Factor
Failure mode
Cause
The lip wear band width is uneven around the circumference, and the minimum and maximum wear locations •Machine has high shaft-to-bore misalignment correspond well on the main lip and the secondary lip.
•Shaft has high dynamic runout
Solution
•Improve the concentricity of the shaft and housing.
•Improve the shaft runout.
Eccentric lip wear
The lip wear band is uneven around the circumference, and the minimum and the maximum wear locations of the main and secondary iips are inversely related.
•The oil seal was installed cocked because the housing bore diameter is too small.
•Use a housing within the design
dimensions.
•The oil seal was installed •Corrrectly chamfer the housing. cocked due to an unchamfered rr to Chapter F.) or incorrectly chamfered housing. •The oil seal was installed cocked because the assembly jig was cocked.
The lip wear band is smooth and glossy. •The oil temperature near the sealing lip exceeded the heatThe entire sealing lip is hardened and resistance limits of the rubber. there are cracks.
•Improve the assembly jig. (Refer
to Chapter G.)
•Investigate the cause and take appropriate measures to prevent future temperature rises.
•Replace with a seal with a belter heat-resistant lip material. Example: Change from nitrile rubber •The oil temperature exceeded (NBR) to acrylic rubber (ACM). the design temperature limits due Change from acrylic rubber (ACM) to to changes in the application rubber (FKMJ. fiuorocarbon conditions. Note that a change of lip material also changes the oil resistance.
The lip wear band is wide and glossy. There are cracks on the sliding lip.
The lip wear band is smooth and glossy, and there are cracks on the lip sliding surface. Hardening usually occurs only on the wear surface.
•The application pressure exceeded the limits of the oil seal.
•Change to a high-pressure type oil seal. •Provide a vent to relieve pressure.
•A dry-wear condition occurred because the machine had an insufficient lubricant level.
•Add lubricant up to the specified level and operate. •As a quick solution, change to a
•A dry-wear condition occurred because the machine's mist-type oil supply is inadequate.
•The seal lip has become swollen because the wrong lip material was selected. The seal lip is swollen and soft.
•The seal lip swelled because it
was soaked in solvents or
gasoline, or was not wiped off after washing.
1-4
- 170 -
double-lip seal model, and apply grease between the lips. •As a permanent solution, change the structure near the oil seal to allow oil to flow freely up to the seal lip.
•Change to an oil seal featuring a lip material that does not swell up in the presence of the lubricanl used. •Do not wash the oil seal in solvents.
c
Leakage from the Seal Lip
Factor
Failure mode
)
Cause
Solution
•The seal lip was scratched through •Cap the keyways or splines to contact with shaft keyways or prevent scratching. splines.
There are visible scratches on the sealing edge.
CO
•-3 'T3
P
There are visible scratches on the sealing edge.
o
•There is contamination on the seal lip edge.
•There are indentations on the lip sliding area.
Part of the lip is folded under and pinched to the shaft.
•The seal lip was scratched because it was assembled over •Remove burrs and defects. burrs or other defects in the shaft chamfer. •The seal lip was scratched •Improve the transifstorage because the lip came into con¬ tact with sharp metal parts during method. transit or storage. •The seal lip was scratched because the oil seal was handled •Avoid touching the seal lip edge. with gloves contaminated with machine cutting chips.
_ *er>d andsaatchedbecausethe shaft was incorrectly chamfered.
•A shaft contaminated with cutting chips was used, and the chips became lodged in the lip •Since parts contaminated with •Wash the machine parts metal shavings were used, the thoroughly prior to assembly. shavings became lodged in the
•Since a dusty or dirty shaft or oil seal was used, foreign matter caught in the lip edge.
•The lip was caught on the shaft end and folded under due to a poor shaft chamfer.
•Chamfer the shaft to the correct size, and apply grease to the chamfered area before assembly.
•The lip folded under due to improper shaft and housing
•Assemble the unit carefully by aligning the shaft and housing bore. Apply grease to the shaft end.
assembly. 3
%**fT*
Part or all of the lip folded under.
3m
•Abnormally high pressure occurred during operation, blow¬ ing out the lip.
There are cracks on the hinge flex area of the lip.
•Change to a pressure-free struc¬ ture.
•Use pressure-resistant oil seals.
•The lip hinge flex section cracked •Assemble the unit carefully by because the lip was squeezed aligning the shaft and housing out of shape during assembly. bore. •The lip hinge flex section cracked •Avoid testing at a pressures due to excessive pressure during higher than the design limits of a post-assembly pressure test the seal. (air-leak test).
•The lip hinge flex section cracked •Change to a structure that does not produce excessive pressure. due to pressures exceeding the •Change to a pressure-resistant design limits.
oil seal.
- 171 -
1-5
c
Leakage from the Seal Lip
Factor
rrr
Failure mode
3
)
Cause
Solution
•The lip caught on an improperly chamfered shalt end, and popped the garter spring.
•Properly chamter the shaft and apply grease to the chamfered
•The garter spring was discon¬ nected because of improper shaft and housing assembly
•Assemble the unit carefully by aligning the shaft and housing bore. Apply grease to the shaft
area before assembly.
Garter spring disconnected
chamfer.
Seal is damaged causing lip deformation.
•The oil seal was deformed due to •Improve the assembly jig. an inappropriate assembly jig. Damarie
•There were visible scratches or porosity in the shaft's contact area. 5"
•Shaft was finished by lathe cut¬
•Smooth out the shaft sliding area using emery paper (#240 or simi¬ lar) without axial movement.
•The grinder or emery paper moved axially during the finish
•Change the machining method (finish without axial feed, plunge direction only).
ting only.
R
"s
If © o
•Place a shim behind the oil seal to displace the lip contact area to a virgin shaft finish location. •Remove scratches or porosity and refinish.
operation
•A worn bearing allowed shaft runout to exceed the design limits. •Change the bearing. •A general-purpose oil seal was used for a structurally large shaft runout.
•Change to an oil seal that resists eccentricity.
•The oil seal was installed with dirt •Wash the machine components thoroughly, then place a shim or metal shaving contamination. behind the oil seal to displace •The lubricant was degraded or the lip contact to a new area on contaminated with dirt or other the shaft. foreign matter.
•Contaminants entered into the lip contact area.
•For a small amount of dust, change to an oil seal with a dust lip or dust cover.
•A non-ferrous metal shaft was
•Use an appropriate shaft material
used. •The oil seal was installed incor¬ rectly during assembly.
1-6
and hardness.
•Insert the oil seal with its seal lip directed towards the fluid side.
Leakage from the Press-Fit Area (Seal OD)
Table 2: Leakage from the Press-Fit Area (Seal OD)
Factor
Cocked seal
instalo
Seal
deformatin
Failure mode
Before removing the oil seal: •The oil seal is cocked with respect to
the housing and shaft.
After oil seal is removed: •Contact at the press-fit is not even.
goues
on the OD
Solution
•The oil seal was cocked because •Finish the housing bore to the the housing bore diameter was proper ID. undersized. •The oil seal was cocked due to an unchamfered or improperly chamfered housing.
•Chamfer the housing bore. (Refer to Chapter F.)
•The oil seal was cocked because •Improve the assembly jig. (Refer the assembly jig was cocked. to Chapter G.) •The fit trace is disconnected locally. Disconnected fit trace
1
Elsai'Suffii
Scrapes or
Cause
•The oil seal was deformed because of an improperly designed assembly jig.
•Improve the assembly jig.
•A gap in the press-fit occured due to seal deformation from
•Handle the seal carefully.
rough handling.
•The oil seal was cocked because •Finish the housing bore to the the housing bore diameter was proper ID. undersized. After the oil seal is removed: •There are longitudinal scratches on the oil seal press-fit. The rubber was gouged.
•Scratching occurred at the OD of the oil seal due to an unchamfered
•Chamfer the housing bore.
•The OD of the seal was gouged due to mislaignment of the assembly jig with the housing.
•Properly align the jig with the housing.
or improperly chamfered housing.
(Refer to Chapter F.)
•The housing bore ID surface was scratched because the seal was inserted with metal shavings or •Apply a thin coat of liquid gasket other foreign matter caught sealant so that the scratches and between the seal and the bore. porosity on the bore ID hole are filled. Usecare not to contaminate •The bore ID surface is scratched the seal lip or the shaft with the due to repeated seal removal
The oil siseal
-
and installation.
•The housing bore ID surface was scratched due to seal installation with burrs on the bore chamfer.
problem-f.
sealant.
•There was large porosity on the bore ID. •Remove the seal and check for grooving on the chamfered area of the housing bore. Remove these grooves and apply liquid gasket sealant to the bore ID surface.
•Quick solution: Apply liquid gasket sealant to the housing bore ID.
-
•The bore ID surface is too rough.
- 173 -
•Permanent solution: Finish the bore ID surface to the correct roughness. (See pages F-8 to F-13.)
1-7
ÿ Examples of Leak Misdiagnosis ©Leaks from the mating surfaces of the machine •The gasket is deformed. The mounting bolts are loose. There are defects in the mating parts
I
(i.e., indentations, burrs).
©Leaks caused by scratches or
porosity in the
housing, or other machine covers
©Residual oil or grease from assembly on the air side of the oil seal
©Extrusion of prc-lube grease or oil from intial assem¬ bly
1-8
-
174
-
Technical Data
J-2 -
ÿFrictional To'que of an Oil Seal ÿService Life of a Seal
J-5 -
ÿOil 8 Chemical Resistance Ratings
J-6 -
of NOK's Lip Materials
- 175 -
J-1
J. TECHNICAL DATA Frictional Torque of an Oil Seal The frictional torque of an oil seal can be expressed by equation (1).
T= f-Pr -r
(1)
Figure 2 shows a case in which the oil temperature is constant. Frictional torque increases as shaft speed
T = frictional torque (N-cm(kgf -cm)) / coefficient of friction Pr radial lip load onto shaft (N(kgf}) r radius of shaft (cm)
--
increases.
The coefficient of friction (f) is determined by many factors, but it generally means dynamic friction under lubricated conditions, and can be expressed by equation (2).
f =$>(// ÿu-b/Pr)U3
The linear shaft speed also influencesfrictional torque. Figures 2 and 3 show the relationship between shaft speed and frictional torque.
Figure 2: Frictional Torque vs Shaft Speed (with constant oil temperature)
(2)
Oil seal type used: S type Lip material: Nilrile rubber(N8R) Shaft diameter: 50 mm Test condition: Fluid sealed: Gear oH SAE 890 Oil temperature: 80'C
--
constanl delermined by fhe stale of the oil film viscosity of sealing fluid (N-s'cnftkgf-s/cm*)) u linear shaft speed (cm/s) b lip-to-shaft contact width (cm)
/i
It becomes evident that the coefficient of friction (f) for a specific oil seal is influenced by the viscosity (m) of the sealing fluid and the linear shaft speed (u). Figure 1 shows the relationship between frictional torque and oil temperature by oil type. Frictional torque decreases as the oil's viscosity decreases. Also, frictional torque is inversely related to the oil temperature, since oil becomes lessviscous as oil temperature increases.
Figure 1: Frictional Torque vs Oil Temperature for Several Oils
Oil seal type used: S type
:;;o.
Lip material: Nitrite rubber(NBR) Shaft diameter: 50 mm Test condition: 1000 rpm
X-
1000 SCO Shaft speed (rpm)
t5CO
Figure 3 shows a case in which the grease temperature is not controlled (heated naturally via friction).
Frictional torque decreases as shaft speed increases. This is because as the shaft speed increases, Ihe grease temperature increases due to the heat generated by friction, thus decreasing the its viscosity and the overall frictional torque. Figure 3: Frictional Torque vs Shaft Speed (with a natural temperature increase)
Engine od
SAE '30
Oil seal type used: S type Lip material :Nitnle rub0er(N8R) Shaft diameter: 50 mm Test condition: FVdsealed: grease(appked to the lp) Oil temperature: natural temperature increase
Oil temperature {'C)
500
1000
Shaft speed (rpm)
J-2
- 176 -
1500
As described above, the frictional torque of an oil seal varies according to the oil type and operating conditions. Figure 4 shows the relationship between
the frictional torque of an oil seal and the shaft diameter (for reference only).
Figure 4: Frictional Torque vs Shaft Diameter (reference only) 1.4
Oil seal type used: S type Lip material : Nitrite rubher(NBR) Test condition: FVjO sealed: Engine oil SAE <*30 1.0 Oil temperature: 80'C Linear Shaft Speed: 5 nVs '
'
OH o
O.b Z
i0.4 02 0
/
/
/
/
/
/
/
100 Shaft speed (rpm)
-
177 -
J-3
Service Life of an Oil Seal 1. Lip Material Degradation Material degradation consists of hardened or softened rubber, cracks, or taking a set. The sealing ability of an oil seal is reduce or eliminated when the lip contact area is hardened or cracked, or the lip-to-shaft interfer¬ ence is decreased.
The failure modes and ultimate service life will vary according to the usage conditions, including operating, environmental, and lubrication conditions. The following will discuss the degradation of lip mate¬ rialsand lip wear (causing a loss of lip-to-shaft interfer¬ ence), which are responsible for the most common oil seal failures.
This degradation often occurs as a result of a chemical reaction between the rubber and the scaling fluid, or a substance intermingled with or dissolved in the sealing fluid. Generally, degradation advances rapidly as the oil temperature increases, shortening the service life of the oil seal. Figure 5 shows the service life of various oil seal mate¬ rials vs.the temperature at the lip contact area (for ref¬ erence only).
Figure 5 shows the service life of various oil seal materials vs.the temperature at the lip contact area (for reference only).
15000
Fluorocarbon rubber I
(Engine oil SAE10W #30)
ICOOO
—
Silicone rubber (Engine oil SAE #30)
Silicone rubber (Engine oil SAE10W #30)
3000
Nitrile rubber (Gear oil SAE #90)
Nilrile rubber
(Engine oil SAE10W #30) 1000 800
600 400 Acrylic rubber (Engine oil SAE10W #30) 200
40
60
70
0
90
100
120
140
Temperature al lip contact area (*C)
J-4
- 178 -
160
200 220
250
2. The Effects of Lip Wear
When there is sufficient lubrication, an oil seal continually circulates oil underneath the lip, thus minimizing lip wear. Lip wear is accelerated by a lack of or degradation of the lubricant, foreign matter trapped in the lubricant, or the entry of external dust under the main lip. Figure 6 shows the relationship between the quantity of lubricant supplied to the lip contact area and the resulting lip wear.
Lip wear increases as the lubricant quantity decreases. However, lip wear actually progresses faster in the presence of a very small amount of lubricant than in the complete absence of lubricant.
Lip wear causes lip-to-shaft interference to decrease, thereby decreasing the seal's ability to compensate for shaft eccentricity. Therefore, the life of a seal with respect to lip wear expires when the lip interference can no longer follow an eccentric shaft (shaft run-out). Figure 7 shows an example of the shaft eccentricity limits of a worn oil seal. Leakage occurs when the Up interference value falls below approximately twice the shaft eccentricity (shaft run-out). Since the progress of lip wear is largely influenced by the quantity of lubricant or other environmental conditions, such as the presence of foreign matter in the lubricant, the performance of oil seals varies according to the actual
apphcation conditions.
Figure 7: Shaft Eccentricity Limits vs Seal Lip Interference
(TIR: Total Indicator Reading)
Figure 6: Seal Lip Wear vs Oil Supply
7 Y
O: Sealing
•
: Leaking
Oil seal type used: S type _ Lip material:Aayic ruCber(ACM) Shalt diameter: AO mm Test condrtions: Shaft roughness O 0.8 urn Rv 3ptit Ry 18 um Ry Lubricant: Engine oil SAE #30 Shaft Speed: 1500 rpm
/
—ib4>o
Oil seal type used: S type Lip material: Nitfile Rubbe'(NBR) Shaft Diameter: 35mm Test Conditions: Fluid sealed: Gear oil SAE #90 Shaft Speed: 2000 rpm Oil Temperature: 80'C 0.5
Quantity of lubricant (mm3)
10
Ltp-to-Shaft Interference (mm)
-
179 -
J-5
ÿOil and Chemical Resistance
How to Read the Table The test method used are in accordance with J1S K 6258 "Testing methods of the effect of liquids for vulcanized rubber" and J1S K 6253 "Hardness testing methods for rubber, vulcanized or thermoplastic". The table displays the test temperature and time, and the post-test changes in hardness and volume.
Ratings of NOK's Lip Materials
The following data is a summary of material test results. It shows the resistance of each lip material to
various lubricants and chemicals. After selecting a preliminary lip material in Chapter E. please verify its compatibility with the lubricant or chemicals to be used.
Hardness and volume change data indicate the post-test change in hardness against the pre-test hardness, and the post-test change in volume against the pre test volume of the test piece, respectively. Plus (+) indicates that the hardness or volume increased after the test, while minus (-) indicates that the hardness or volume decreased after the test. The absolute value is inversely related to the oil or chemical resistance of the material. The resistance of each lip material is determined by assuming that it is used for 500 hours continuously at the listed test temperature, and based on the indicated lest results. Symbols in the "Material Resistance Rating" column are as follows: @ : Good resistance O : Resistance, except in special cases* A : No resistance, except in special cases* X : No resistance tti: Consult NOK before use. In most cases, the stability of the lip material can be determined by consulting the hardness change and volume change data; however, some materials may be classified as A or X despite their small hardness or volume change values. Such classifications are based on other considerations and do not contradict the above-mentioned general principles. For the classification of oil types, refer to the "Lubricant Brand Guide" published by the Lubrication
News Agency. Please refer to the guide for the properties of each oil type.
There are cases in which an inorganic acid, organic acid, alkaline acid, or inorganic salt should not be used due to environmental conditions. Please consult with us before use.
J-6
-
180
-
Oil Resistance Data Hardnes Volume Test Test NOKUp i emperature Duration Change Chanqe BsSara DjtomflWA) Material Ratraera CC) (h) (%) (points)
Sealing Fluid (Manufacturer)
Apolloil Auto Lube 30 SD (Idemitsu Petrochemical)
A727
A941 A795
100 120 100 120 100
120 A275
T303
T599
100 120 120 130 150 120 130 150
200 200 200 200 200 200
200
120 150
S728
150
F585 F975
m
3 CO
5'
New Pan 10W-30 SG (Nippon Oil)
A727
CP
o A941
CO
A795 A275
T303 T599 T302
S728 F585
F975 Shell Formula X 5W-30 SG (Showa Shell Sekiyu)
A727 A941
A795 A275
181
-
175 150 175 150 175 100 120 100 120 100 120 100 120 120 150 120 150 120 150 150 175 150 175 150 175 100 120
100 120 100 120 100 120
+
4
+
6 6 9
+
+ + 5
200 200 70 500 200
+ 6
200
+
70 500
-
0 1 2 1 2 1
+
4
70
+
-
2 0 6 3 5 6 9 2 2
+
1
200 500
T302
0 0
200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200
200 200 200 200 200 200 200 200 200 200 200
+ +
+ +
+
-+
-
+
+ + +
3 5 2 2 7 5
+ 12
-
+
1 4
-
2.1 2.7 6.7 7.5
-
8.9
-
©
9.2 1.4
A
+ +
0.4
©
0.3 0.6 1.5 - 0.2 0.3 2.3
0
0.9
©
0.9
O ©
-
1.3 -- 3.5
+ 3.3
+ +
4.4
8.8 + 10.4
-
1
+ 13
+
4
+ 9
+
7
+ 12 + 3
+
7
A
© O O A
+ +
-
o
©
0 0
1.1
©
0.6 4.2 6.1 5.7 5.3 2.8 2.6
+
-13 -20 0 +2 + 2 +6
A
2.3
1
+ 1
A
ai 3.2
+
1
o ©
+ +
1
1
+
o
©
-
+
A
+ 1.0 + 1.1 + 2.0
+ + + 1.9 + 2.6
0
A
O
3.3
+ 4.4 + 19.9
o
A
© X
© A
©
o © A
©
o o
+25.2
A
+ 1.8
©
2.4
o
+ 2.0 + 2.3
©
0.1 0.3
©
1.1
©
2.6 5.6 6.8 8.6
A
©
8.7
A
+
-
0 X
A
X
J-7
(
Oil Resistance Data
) Hardnes Volume Test Test NOK Lip Temperature Change Change ware Duration (OjromeW' A' Ratasel Material (%) CC) (h) (points)
Sealing Fluid (Manufacturer)
Shell Formula X 5W-30 SG (Showa Shell Sekiyu)
120 150 120 150
200
T302 S728
F585
150 175
F975
150 175 100 120 100 120 100 120 100
T303
T599
A727
Mobil 1 5W-30 SE/CC (Mobil Sekiyu)
A941
A795 A275
T599
a"
ffi
O
T302
Ul
S728 F585 F975
A727
A941
1
-
120
200
+ 5
150 150 175
200 200 200
+
+ +
200
-
120
120 150 120 150 150 175 150 175 150 100 120 100 120
A795
100
A275
120 100 120
T303
120
150 T599 T302
J-8
- 182 -
A
-
175 General Motor Oil G-1 mX 5W-50 SG (General Sekiyu)
Q
0.3 0 0.8 1.5 1.1
200 200
150
m eg
+ 1.1
-
1
120 T303
0
+ +
120 150 120 150
S728
150
F585
175 150 175
200
200 200 200 200 200 200 200 200 200
200 200 70 200 500
70 200 500 200 200 200 200
1
5 -13
-16
+
4
1 1
+ 3
-
1
+
4
200 200 200 200 200 200 200
1.4
o
1.4
©
+ 1.5 + 1.2 + 1.1
©
0.6
©
-
1
+
4
+ +
+
+ +
1
1
3
-18
200 200 200 200
+ +
+ 0.9
200 200 200 200 200 200
200
©
1
-14
200 200 200 200
o
+
200
200
+ 17.0
-
0 6 0 2
-
1
+
0 3 5
"
+ + 2 + 5 + 3 + 7 + 6 + 12 + 2 + 5
©
+20.4 + 0.9
+ 2 + 10 + 7 + 13 + 3 + 11
+
©
2.2 6.0 7.0 7.3 7.0
1.7 0.1 1.0
+ + 1.6
+
1.0
+ 1.4 + 1.7
+ +
2.6 2.4
+ 17.5 + 20.2 + 1.5 + 1.9
+
1.4
+ 2.0 + 0.6 + 0.1
-
1.0 2.0 5.9
- 7.3 - 8.1 -
A
o A
o X
© X
© © ©
o © © 0 A
©
o w
A
© ©
o
"o © A
O X
©
7.5
A
©
+ 2
+ 1.4 + 1.3
o
+
+
©
+
0.6 1.2
+
2.0
©
+
1
2 0 + 3 + 3 -13
-20
+
0 2
+ 2.2 + 18.3 + 23.2 + 1.7 + 2.0
A
o 0 A
©
0
Oil Resistance Data Hardnes Volume Test Test NOK Lip Temperature Duration Change Chanqe teffira Material fiabmai (h) (%) (poinls) General Motor Oil G-1 mX 5W-50 SG (General Sekiyu) F975 150 200 + 1.5 + 2 175 200 + 5 + 1.8 Apolloil Gezelube 20CB (Idemilsu Petrochemical) A103 too 70 0 -2.0
Sealing Fluid (Manufacturer)
m
-
5' O
High Diesel S-3 30CD (Nippon Oil) Apolloil Gear ZEX 90GL-6 (Idemitsu Petrochemical)
T303 A727 T303 A727
©
200
+
200 200 200
X A
100
200
-1.7 -0.1 -1.8
0
A989
+ 11 + 2 + 10 + 4
-2.8
A437
120 100 120 120 100 120 120 150 120 150
200 200 200
+ 14
-1.0
X
+ 4 + 13
X
200
-
3
-1.6 0 + 2.4
200 200 200
+
1
+ 2.3
T302
120
200
S728
150 150
200 200
175
200
150 175 150 175
200 200
100 120 100 120 100 120 100
200 200 200 200 200
-
200
+ 10
200
+
4
120
200
A437
100
3 2 3
A989
100 120 100 120 120 150 120 150
200 200 200 200 200 200 200 200 200 200
+ +
-3.0 -4.8 -4.7 -4.0 -1.0 -0.2
0
-0.5
+ 3
-0.9 -1.6
A
-1.4
A
T599
0>
F585 F975
I A727 A941
A795 A275
130
120
A103 T303 T599
- 183 -
+2.7 -3.5 +0.1 +3.6 +5.1 + 1.9 + 2.7
100
A103
Apolloil TH Universal 10W-30 (Idemitsu Petrochemical)
1
+ 1
A275
T303
Q
+
100 120 100 120 100 120
A795
o
70
70 70 200 200 200 200 200 200
A941
o
130 100
200 200
+
-
1
3
+ 5 + 2 + 9 + 5 + 11 4
-
©
A
-3.3 -3.7 -4.3
2 + 1.3 5 + 1.7 3 +3.6 + 5 +4.2 Immeasurable Immeasurable Immeasurable Immeasurable 0 +2.7 + 4 + 3.5 + 2 +2.2 +2.5 + 7
—
X
A
-
4
2 0
+ 6 + 4
+
+
-
1 3 2
-
X X
D A A
+ 4.2 + 5.0 + 2.4
+ 1.1
1
+3.8 +3.6
3
+3.4
-- 2
A
A A A A
©
+ 3.7 A
J-9
ON Resistance Data Hardnes Volume Test Test NOKLip Temperature Change Change tes'rce Duration (OufomeWA) RataB Material (%) (h) (points)
Sealing Fluid (Manufacturer) Apolloil TH Universal 10W-30 (Idemitsu Petrochemical)
T302
120
S728
150 150
175 F585 F975
A727
Gear Lube EHD 80-GL-5 (Nippon Oil)
A941 A795 A437
A989
A103
o CD
T303
03
150 175 150 175
o <
CD =T CD
A727
Spilacs EP90 GL-4 (Showa Shell Sekiyu)
A941
A275 A437
A989
A103
J-10
-
184
-
200
-
200 200
+ 2 + 4
150 150 175 150 175 150 175
100 120 100 100 120 100 120 100 120 100 120 100 120
200 200 200
200 200
+
+ 2.8 + 1.9
©
+
A
200 200 200 200 200
3
+ 11 + 5 + 9 + 5 + 11 + 4 + 10 + 1 + 2
+
-
1 1
0
200
200
-
200 200 200 200
+ 5
200
200 200 200
200
2.8
2
3
+ 7
+
6
+ 11 + 6 + 11 + 4 + 10 + 6 + 12
+5 +11
A
+ 1.9
+
2.6
+ 0.5 + 0.5
-
A
4.6 5.3 3.2 2.7
X A
3.0 3.0 3.3
Q
2.8
A
A
+ 1.2 1.3
0
+ 0.4 + 0.7
©
+
Immeasurable Immeasurable
+ 5 + 4 + 7
200 200 200 200
1.8
0 + 2.3 + 5 + 2.3 Immeasurable Immeasurab'e
+
X X
1
200 200 200 200 200 200 200 200 200
100 120 120
200
5.0
+ 20.1 +20.6
2
120
120 A795
-33
-
150 120
F975
+
-16
+ 2 + 4 + 9 + 6
T302
F585
+ 4.7
200 200
120
S728
tn,
2
2
200
T599
o
-
100 120 100 120 100 120 100 120 100
150
O CO
200 200 200 200 200
A
X X
+ 1.7 + 2.3
©
+ 1.2
©
+ 1.5
A
+ 0.6
©
+
-
1.1
0.4 0.6
A
o o A
5.4
o
6.3
X
7.3 7.3
X
4.7
©
-- 3.8 4.1
- 3.9 - 4.0 - 4.0
A
O X X
Oil Resistance Data Hardnes Volume Test Test NOKLip Temperature Change Change Restate Duration COi»mci«A> Raterel Material (h) <%) tpoinls) rc>
Sealing Fluid (Manufacturer)
T303
Spilacs EP90GL-4 (Showa Shell Sekiyu)
T599 T302 S728
F585 F975
120 150 120 150
200 200 200 200
120 150 150 175 150 175 150
200
175
200 200 200 200 200 200 200
+
-
+
-
0 3 1
2 0 5 6 8 0 2
-
0.3
©
+ 0.3
o
-
1.0
©
0.8
A
+ 1.5 + 1.5
©
-
0.2 3.2 1.4 2.0 1.0
o A
X
©
+ + 4 + 6
+ + + + 1.0
-
+ +
© © ©
A
© A
G)
g;
Apolloil Gear HE 90-GL-4 (Idemitsu Petrochemical)
T303
Apolloil Wide Gear LW 80W-90-Gl-5(ldemitsu Petrochemical)
T303
O w
o
90 110 120
IT
150
(/)
Gear Lube SP 90 GL-4 (Nippon Oil)
Diamond EP Gear Oil 90-GL-3 (Mitsubishi Oil)
A727 A795 T599 A727 A727 A795 A727
Diamond Hypoid Gear Oil 90 GL-4 (Mitsubishi Oil)
T303 T303
Antoil B 80W (Nippon Oil) Diamond EP Gear Oil 80-GL-3 (Mitsubishi Oil)
T599
Clas Gear
-
130
70
+
1
120 100
IUsndusetrial
A275
for
A437
A989
(Extrem
Presure)
120 100 120 100 120 100 120 100
A103
120 100 120
T303
120
150
-
185
-
2 2 3 6 2 6 1 6 1 0 0 2
A941
Oils
1
+ + + +
+ +
100 100
A795
+
70 70 70 70 70 70 70 70
A727
Synthese D68EP (NOK Kluber)
2
2 2
120 120 80 100 100 100 100 100
150
(Polyglycol base)
480 240 70 200 500 200 500
500 70 300 500 70
200 200 200 200 200 200 200 200 200 200 200 200 200 200 200 200
-
+ 5
+
1
+ 6 + 9 0
-8 -13 -
6.4 6.2 0 0.1
- 0.5 + + 0.1
©
©
-
0.3
o
-
1.2 7.0
o
0.7
+
1.8 0.3 2.9 0.2 1.6
0 © ©
+ + +
-
+ +
+
-
0.7 1.2 1.0 1.0 3.5 0.9
A
...o... © © © © O Q
©
+ 7.2
+12.4
A
1
+ 4.1
©
1
+ 5.6
+ 2 + 4
-
2.1 1.8 0.3 1.6
-2 -2 -1 -5 -2 -3 -2 -3
+ + + +
-24 -26
+59.5
+ +
+ +
5.6
3.1 1.3 1.0 2.6 2.0 +45.1
0 © O ©
o ©
X X J-11
Oil Resistance Data Hardnes Volume Test Test NOK Lip Temperature Change Chanqe tesSaxs Duration lOvrometiBAi Rairaera Material (h) cc) <%) (points)
Sealing Fluid (Manufacturer)
T599
(Polyglycol base) Synthese D68EP (NOK Kluber)
T302 S728
F585
o
A795
120 100
200 200 200 200 200 200 200 200 200 200
+ + + + + + + +
yT
A989
5"
Q.
CD
CO
-14
120
200
-10
150 150 175 150 175 150 175
200 200 200
-10
200 200
+ 11 + 5 + 11
100 120 100
200 200
-- 3
120
200 200 200
F585 F975
A727 A941 A795 A275
100 120 100
A437
120 100 120
J-12
-
186
-
3 5 5 5 5
T302 S728
(Polyglycol base) Synthese HT220 (NOK Kluber)
3 6 7 2
200 200
TJ
c
+ + + +
4
120 150
CD
B
1
0
T599
CD
m X
3 6
120 150
T303
C
+
200 200 200 200
A103
57 )
+ 2.0 + 1.4 + 0.9
A941
A437
C CO
+
-
CD
o
- 1
200 200
Q>
o
A
0.2 Immeasurable Immeasurable
100 120 100
A275
Q
X
-
+
120 100 120 100 120 100 120 100 120
200 200
200
+80.8
X X X
- 6
200
(/>
+47.5
+69.1 +57.0
+ 1
v>
r\J
200 200 200 200 200
-25 -34 -20 -22
200 200
A727
Q>
150 150 175 150
200 200
175 150 175
F975
(Polyglycol base) Synthese D460EP (NOK Kluber)
120 150 120
-
3 4
8 7 9
-
2.2 2.0 2.6 2.5 6.6 7.1 9.5
4
+ 2 + 3
200
+ + +
200 200 200
+ 1 + 3 + 4
Q A
7.5
6.8 6.7
-- 6.8 7.1
+ 8.5 + 11.9 + 10.4 + 13.9 + 14.0 + 17.8
+ 1.7 + 3.3 + 1.1 + 1.9
+ 1.7
+
-
2.5 0.7 0 in io 5.0 5.1 2.9 2.9
5
I
6
1
1
A
9.1 7.3
Immeasurable Immeasurable Immeasurable Immeasurable
+ 4
X
1.4
--
A A
A
X X X X
Oil Resistance Data Sealing Fluid (Manufacturer)
Hardnes Volume Test Test NOK Lip Temperature Change Change ResSara Duration lOu'omcwA) Rates Material (h) (points) <%) CO
100 120
200 200
+ +
100 120 120 150 120 150 150 175 150 175
200 200 200
+ 2 + 3 -11
200
-
200 200 200 200 200
-16 -21
F585
150 175
F975
150 175
200 200 200 200
A989
(Polyglycol base) Synthese HT220 (NOK Kluber)
At 03
T303
T599 T302 S728
(Polyglycol base) Synthese HT680 (NOK Kluber)
A727
200 200
100 120 100 120 100 120
200 200 200 200 200 200
A437
100
200
A989
120 100 120
200 200 200
A103
100
200 200
A941 A795
A275
8 1
X
X X X X X
1.8
A A
1.3
A
8
- 2.4 - 2.7 - 2.9 - 3.4 - 6.8 - 8.1
A
+ 5 + 5
-10.0 -10.0
A
+ +
-
+
+ 6
-
1
+
4
1
+ 5 + 6
+
6 7
+ 5 +7 + 4
+
120 150
200 200
+ 2
S728
150
200
+
175 150 175 150 175
200 200 200 200
+ 3
200
+ 4 + t + 8
80 100
200
-14
70 200
-11 -14
80 100
200 200
-7 -8
A275
+23.0 +24.7 +32.2 +28.9 +30.9
0.7 1.5 0.5
3 2 0
T302
A727
2.9
3.0 + 19.1
+ + + + +
0
-
200
F975
3.3 3.3
1.7
150
F585
-
+
200 200 200
T599
- 187 -
+
120 120 150 120
T303
No.1 Spindle oil (Nippon Oil)
8
-11
200
120
100
2 4
5 5 + 1 8 -12
-
-
4
3 3
8.3 8.7 6.7 7.3 8.7 7.1
+ 5.4 + 8.0 + 7.5 + 12.2 + 9.0 + 11.7 + 0.6 + 0.3 + 0.8 + 1.5 + 0.6
A A A
A
A
A
+ 1.2
A
+ 20.7 + 25.1 + 22.2 + 12.1 + 12.2
X X X A A
J-13
Oil Resistance Data Hardnes Volume Test Test NOK Lip Temperature Change Change lesSarce Duration IDurofnotof A) Material (%f Ratraria! (h) (points)
Sealing Fluid (Manufacturer)
No.1 Spindle oil (Nippon Oil)
A103
G418
T303 T599 T302
S728 F585 F548 F975
£ o
J
No.2 Spindle oil (Nippon Oil)
A727
cD O
A275
C/)
ÿg. Q.
A103 G418
o *
'
T303
T599
T302 S728 F585 F548 F975
Shell Turbo Oil T32 (Showa Shell Sekiyu)
A727
Clas
A941
2
turbine
A275
T303
oil
S728
J-14
-
188
-
100 80 100 80 100 80 100 80 100 80 100 80 100 80 100 80 100
100 120 100 120 130 120 150 120 150 120 150 120
150 120 150 120 150 120 150 120 150
100 120 100 120 100 120 120 150 150
70 200
200 200 200 200 200 200 200 200 200 200 200 200 200 200 200
200 200 200 200 70 200
200 200 200
200 200 200 200 200 200 200 200 200 200 200 200
200 200 200 200
200 200 200 200 200
-16
+31.0
X
-
7
+ 11.3
A
7
+ 11.3 + 12.5 + 12.8 + 12.5 + 12.8
A
+ 13.8
A
+ 15.7 +39.4
A
X
-11
-10 8 9 -10 -13 -15 -16
-
-
-
4
+42.6 + 2.0 + 3.4
0
+ 1.2
1
+ + +
4
2 2
+ 11.1
-
+ 11.7 + 2.8 + 3.3 + 12.4
3 -12
-
1
+
1
+ + + + + +
2 1
3 3 3
-2
A
A A
X
©
2.9 1.6 3.1
-
8 -10 2
A
3.3 3.4 5.8 6.5 5.8 6.5
A
A A
A
7.1
+
+ 7.3
0
-13 -15 3
X X
1
+ 23.1 + 27.4 + 6.8 + 7.7 + 1.6 + 2.4 + 2.0
1
+
3.1
+ 1
-
0.5
-
4
0 0
-
+
-
1
2
0 + 6 + 10 + 1 + 3 -13
0.5
2.7 2.9 8.5 8.7 0.8 0.8 + 13.9
0
© © © © ©
©o«
Oil Resistance Data Test Test NOK Lip Temperature Change Duration (Djtomottf A) Material (h) CC) (points)
Hardnes
Sealing Fluid (Manufacturer)
S728 F585
Shell Turbo Oil T32 (Showa Shell Sekiyu)
Shell Turbo Oil T68 (Showa Shell Sekiyu)
A727
O
8
A941
(/>
ro c
A275
O" 3 CD O
T303 S728
F585 Apolloil Mission Fluid (Idemitsu Petrochemical)
0 3
+
A275
100
200 200 200 200
+ + + +
200
+ 2
200 200 200 200
+
4
-
3 2
o
100
F975
150
A727
175 100
o" 1
1
in
120
3
A941
o' 3 cl
G418 T303
120 120 150 120
150 T599
T302 S728
-
+
100 120
F585
189
2 2 2
-11
A795
S728
-
-
200
T302
3]
200
120
o o 3 <
CD
to
-
100
T599
Pegasus Torque Converter Fluid (Mobil Sekiyu)
2 7
200 200
-
o
B c
—s
+ 1.9
1
120 150 120 150 150
200 200 200 200
2.1 2.1 2.9
3.1 8.5 8.7
+ + + +
0.9 2.8
2.5
+
-
1
+
+
2
+
+
1 3 2
+ + +
+
3
+
3.4
+ +
-
1
A
+ 0.6
5 7
+ 3
X
1.4
+ 9.4 + 11.4
-
+ 11
X
1.3
0.9 0.2 3.9 5.9 5.7 5.6 4.3 3.6 1.6 1.5 1.5 2.1 3.1
+ 6 + 5
X
1.3
-
200 200 200 200 200 200 200 200 200 200 200 200 200
T303
3
200
+
1
3 + 5 + 5 + 14 + 15
+ +
+ 17.5
3
200
G418
w
200 200 200
+ +
120 150 120 150 150 175 150 175
A275
3 3
200
-19 3
-
150
A795
> C
200 200 200 200 200
120 100 120 100 120 120 150 120
A941
J
200
200 200 200 200 200 200 200 200 200 200 200 200
A727
CD 3. CD
175 150 175 100 120 100 120 100 120 120 150 150 175 150 175 100 120
Volume
testate Change Rata t> (%)
A
X
A
A
+ 20.6
X
X
1
+ 22.1 + 1.9
+ 2
+ 2.4
+
2
+
+
4
+ 2.1
-
3 3 1 2 5 6 2 2
+
-15 -27
+
1
-2 -
1.6 6.1
+ 6.1 + 3.5
+
-
3.2 1.7 2.7 2.5 2.0
O A
0 A
1.1
1.6
A
+ 4.6 + 6.0 + 4.5
@
+
6.3
A
0
+ 6.3 + 9.0
O
-18
+34.8
X
1
J-15
Oil Resistance Data Hardnes Volume Test Test NOK Lip Temperature Change Change ftestra Duration (Dufometef A* Ralrae-al Material (h) (%> (points)
Sealing Fluid (Manufacturer)
ro
Pegasus Torque Converter Fluid (Mobil Sekiyu)
175 150 175 150
200 200 200 200
175
200
A727
100 120
At 03
100 120
70 70 140 70 70 140 70 300 500 70 300 500
S728 F585
F975
Apolloil ATF D-2 (Idemilsu Petrochemical)
T599
135
> 150
o
3
Si
o" ÿ
i
T303
120
3
in 3
150
vi in
o
Tl c
165
ol
S728
150 175
F384
Mobil ATF 200 (Idemitsu Petrochemical)
IE
A727
Duffny Hydraulic Fluid 32 (Idemitsu Petrochemical)
—
s
1 a>
E
f ~~
T303
-
120 120 150 120 150
+ + + +
3 3 4 7 -15 -24 -25 -40 0
+
+ +
+
1
+
+ +
200 200 200 200 200 200 200 200 200 200 200 200 200
200 200
1
0 3 2 5 0 2 2
200
A795
G418
190
70 500 70 500 70 200 70
120 100
1
-
70 150
A941
S
J-16
1
200 200 200 200
100
2 2 0 0 - 2
-
100 120 100
A103
-
+
A727
o
1
- 2
500 70 300 500
70
A989
o
6
- 2
-
130
8 ir>
-
70
T303
A437
5
-2 -2 -4 -5
1
70 200
120 100 120 100 120 100 120
-
+ +
0 2 2
130
A275
§
130
+ 39.7
4
-
AI03
i
o o
150
-22
-
+ 4 + 6 + 8 + 11
+
7
+ 9 + 6 + 8
+ + +
6 7 3
+4 +7 + 10 +
0 2
X
3.2 4.0
+ 3.2 + 3.9
+ + +
-
2.8 3.5 4.2 1.2 1.5 2.0
+
4.4
+ + + + + + +
4.1 3.9 4.8
+ + + +
A
A
4.4
4.0 4.0
3.2 3.9 2.9 2.8 2.8
+
© A
2.3 +29.7 +31.1 +35.5 +38.7 + 0.5 + 0.2 + 5.4
A
-
9.6
A
1.2 - 2.6
A
+
5.0
+
4.4
-
0.4 0.1 1.5
+
—
1.3
- 5.4 - 6.1 - 7.9 - 8.3 4.8 4.9
- 3.8 - 3.8 - 4.6 - 4.9 - 6.8 - 6.8 - 0.3 - 0.1
X X X X A A A
A
A
o X A A A A A
Oil Resistance Data Hardnes Volume Test Test NOK Lip Tmpetalure Change Change Reishce Duration ICUxnclCT A) taaena' Material CC) (h) (%> (points)
Sealing Fluid (Manufacturer) Duffny Hydraulic Fluid 32 (Idemitsu Petrochemical)
0.7 0.5
-
-
200 200 200
2 0 3 2 -19
+
1.5
175 150
200 200
-22 0
175 150 175 150 175
200 200 200 200
+ 1 + 1 + 3
417.6 4 0.9 4 1.3
200
+
100 120 100
200 200 200
-5 -5
120 100 120 100 120 100
200 200 200 200 200 200 200
+ + +
-
150 120 150 150 175 150 175
200 200 200 200 200 200 200 200 200 200 200 200 200 200
F975
150 175
200 200
F548
150 175
200 200
100
200
120 100 120 100 120 100 120 100 120
200 200 200 200 200 200 200 200 200
T599
120
200
200
S728
150 120 150 150
F585
T302
F975
F548
Shell Terrace Oil C10 (Showa Shell Sekiyu)
A727
1 _L
< Q.
A94I
C
A795
O
to
O
c
A275
to
o' to
O
A989
5
A103
"O
G418
C
1 w
T303
®
o o
T599
3
—
T302
ro
S728
Q.
c
(5 c
"to a
F585
< ®
Shell Terrace Oil C46 (Showa Shell Sekiyu)
A727 A941
A795 A275 A437
191
-
120 100 120 120 150 120 150
120
+
0 1
0 2 4
6
4 2.0 417.0
1.6 1.7 4 0.9 4 1.3 4
6.9 7.7 4 4.0 4 4.0 4 4
A
-
1.8 A
2.1
A
-
2
+
1
4
1
4 2.0
4 3
X
4
2.6 1.6 0.8 4 1.8
4 2
A
A
4 1
4 1.7
A
+ 2 + 4
-
A
4 3 2
4
4
4
0.9 0.6 5.2 6.6 4.8 7.2
3 2 -24
4
7.2
-
-28
-4 -4 - 1 -2 -1 -1
-
4 4
4 9.8 450.9
A
461.1 4 3.9
X
4.9 3.9 4 4.8 4
2.7 3.5
3
4
1.5
4
4 1.1
3 4 5
+ +
8
+ + + +
5 6 4 4
7
X
4
4
4
A
4
-
o
0.4 0.4 0.5
A
1.4
A
6.7 -- 6.5
O A
-
8.0 -10.5
A
J-17
Oil Resistance Data_ ) NOK Lip
Sealing Fluid (Manufacturer)
Material
Shell Terrace Oil C46 (Showa Shell Sekiyu)
A989 A103
G418 T303
100 120 100 120 120 150 120 150
200 200
+ 4 + 6 + ro + co + 5
-
120
200
200
200 200 200
+ 7
-
1
200
+
2 2 0 2 5
-
F975
175 150 175
150
200
175
200
A795
100
F384
100
70 70
-
A727 A795
100 100 100
70 70
+
80
168 168
QJ
F548
o
Volume
150
S728
C
Hardnes
F585
T302
-L
Test
Change Chanqe Rsffiinx Duralion iOjrometix Au Rawel (%) (h> (points)
200 200 200 200 200 200 200 200 200 200
T599
<
Test
Temperature
0)
G
150 120 150 150 175
+ +
+
-
11 14
+ + +
+ +
+ +
3.2
3.4
A
3.9 4.5 5.8 5.8
A
0.3 0.3 0 0.1 1.8 2.3
13.8 16.5
5
+ 1.6 + 2.1
1
+
0
+ 1.5 + 1.1 + 1.4
4
1
0
A
A
1.5
1
o
2. O
Dullny Neofluid 46 (Idemilsu Pelrochemicall
3
Duffny Super Hydro LW 46 (Idemilsu Pelrochemicall
CD
s
F384
"O
c
sw
Mulpose 32 (Nippon Oil)
2,
Unipower SQ 32 (Esso Sekiyu)
A727 T303 A727
CD
80 100
o D Q.
Unipower SQ 46 (Esso Sekiyu)
A727
100
Unipower SQ 68 (Esso Sekiyu)
A727
100
w
el c T
a
s
Mobil Velocity Oil No. 3 (Mobil Oil) Mobil Velocity Oil No. 6 (Mobil Oil) Kyoseki Hydolux 32(Kyodo Oil)
A727 A727 A727 A795 T303 A727
(Phosphoric ester base) Highland FRP46 (Nippon Oil)
A795 A437 T303
S728 F585 F384
J-18
-
192
-
70
70
9 0 6 0 2 2 2
166
0
70 166 70 166
0
80
168
80
168 168 168 168
80
-
12
80 80 100 120 100 120 100
200 200 200 200
120
200
100 150 100 150 100 150 100 150
200 200 200 200 200 200 200
200
200
+
1
0
+
1
-
3
- 13 - 8
+
1
- 2 - 40 - 66 - 30 - 40 - 25 - 28 - 26 - 32 - 2 - 7 - 10 - 13 - 3 - 4
+
20.5
X
+ 9.6
-
+ +
+ + +
1.1 5.4 0.1 0.8 0.7
0.5
1.2 0.1 + 0.3 0.7 0.4 + 12.0 + 5.7 + 0.2 3.5 + 0.3 + 149.4 +202.9 + 97.4 + 123.7
X X X X
+
-
-
-
93.3
X
+ 117.6 + 98.4
X
+ 123.1
X
X
+ 3.2
+
7.7
A
+ 14.5 + 19.5
X
+ +
4.0 6.6
o
Oil Resistance Data Hardnes Volume Test Test NOK Lip Temperature tesaxe Duration ChangeA) Change RshaeiB' Material (points) (h) (%)
Sealing Fluid (Manufacturer) (Phosphoric osier base) Highland FRP46 (Nippon Oil)
F548
(Water+glycol base)
Moresuco Hydoll HAW (Matsumura Sekiyu)
100 150
200
A727 T303 S728
80 80 80
F585 F975
80 80
200 200 200 200 200
A727 A103
80
168
80
A795
60 80 80 80 80 80
70 70
T1
a>
(/>
f2
(Water+glycol base) Kosumo Fluid HO 46 (Kosumo Oil)
Q>
3
c" a
F384 A103
(Water+glycol base) Naiback FR200 Fluid (Mobil Sekiyu)
Gasoline
A795 F384
A103 F384
80
(Water+glycol base) Mobil Hydro Fluid HFC (Mobil Sekiyu) (Water+glycol base) Kyoseki Hydoria G(Kyoseki Sekiyu) (Oil+water emulsion base) Horto Safe 5040 (E.F. Horton 8 Co.)
A103 A103
80 80 100
S728
100
Idemitsu 100 Gasoline (High-octane gasoline) (Idemitsu Petrochemical)
A727 A795
25 25
T303 S728
25
Regular Gasoline (General Sekiyu)
F585 F384
25 25 25
A795
25 25
F585
F384
Nonleaded High-octane Gasoline (Mitsubishi Oil) Magnum 100 (Kosumo Oil)
F975 A795
Esso Extra (Esso Sekiyu)
A795
Formula Shell Super X (Show Shell Sekiyu)
A795
25 25 25 25 25 25 25 25
25
c
Light oil (JIS No.2)
CO DT
O. ;* CD
O
cn
CD 3 CD
Kerosene
I
CD W < *<
Heavy oil (C heavy oil)
O
- 193 -
A727
25
A795 T303
25 25
S728
25
F585
25
F384
25
A795 T303 F384 A727 A795 A941
25 80
25 50 50 50
200
70 70 70
70 70 70 70 70 70 70 200 200 200 200 200 200
24 72 70 70 70 24 72 24
+
+ 12.1 + 16.2
A
7
4
+ 5.7
A
+
29.0 4.7
X
4.7
0
4
-31
-
1
+
1
+ +
+
2
+
-3 -7 -4 -5 -5 -7 -5 -5 -9 -11
-6 -9
4.9
+ 0.2
A
+
2.1 2.1 5.2
A
+ + + 9.3
A
+
1.8
A
+ 3.0 + 7.5 + 7.7
A
+
A
-
16.2 0.5 6.8
X
23.9 53.0
A
X
4
+ 110.5 + 4.1
2
+ 3.2
+
X A
-11
+
21.6
A
-15
+ 29.3
A
-
1
+
A
1
+
1.0 1.0
2 -15 -17
+
1.8
A
+ 34.3 + 30.1
X X X X X
-16
+
24 72 200 200 200 200 200 200 200
-17
+ 30.2 + 34.4
168
-11 0 7 0 2
200
A
X
-17
200
A
50.1
72
200 200
A
+ +
-16
-
X
+ + 39.0
-17 -24 -16 -25
-
X
+ + +
34.8
3 -13 0 0
+ +
-
+ +
31.4 6.6 2.0 1.9 44.7 0.2 0.2 3.3 13.9
+
0.2
-17
-
5
+ 3
-
-
1
-
-
X X A
X X A A
X X
7.8 2.8
A
6.3
A
J-19
Oil Resistance Data Tesl Tesl Hardnes Volume NOK Lip Temperature Change Change tesyre Duralion !Duron*ee«A) Rainaehal Material (%) (h) (C) (points)
Sealing Fluid (Manufacturer) I Heavy oil
(C heavy oil)
T303
50
200
|
S728 F585
—5-1
F384
50 50 50 100 120
200 200 200 70 70 70 70 70 70 70 70
CD
•< o
o Similon VLQ-25 (Daido Chemicals) Shell Macron Oil 27 (Showa Shell Sekiyu)
if 5" to (O
A727
S728 A103
Standard Anti-rust ND32 (Mobil Sekiyu)
S728 A103
120 100
A103 A103
100
Cable Filler No.58 Auto Lex A (Idemitsu Petrochemical)
S728 A727
Insulating Oil JIS No.2 (Nihon Sekiyu) Insulating Oil JIS No.3 (Idemitsu Petrochemical)
o
Q
(Fluorocarbon oil base) SEALUB S-11 (NOK Kluber)
100 100
A103
100
T303
100
100 100 100
T302 S728 S817
J-20
-
194
-
1
+
2 2
+ +
-
+ +
T599
T302
100
S728 S817
F384
100 100 100 100 150 150
A727
100
70 250
T303
100
70
A727
70
250 70
200 200 200 200 200 200 200 200 200 200 200 200
1.1
0
2
+ 2.2
- 1.7 - 4.7
-
-
4.7 7.2
4.2 3.3
2
+ 2.4
- 2
3
- 0.4 - 0.1
1
+ 1.7
2
+ +
-
4
0
-
2 4 4
2 3 3 2 2 3 1
+ 1 + 3
-
1
X X
2.8 4.2 0.9
+ 1 + 2
+ + + + + + + +
200
-
1
+
X X A
+ 7.3 + 11.5
-
5
+ 3 + 5
200 200
100 100 100 100 100 100 100 100 100 100
0.5 0.3 4.2
+ + 30.5 + 13.3 +58.8
1
-
A727
-
-
200 200
100
DUOTEMP PASTE (NOK Kluber)
2 0 + 2 -12 -10 -10 5 6 + 2
- 4
100
F975
-
200
F585
F585
(Esler base) ISOFLEX NBU 15 (NOK Kluber)
70 200 200 200 200 200 200 200 70 200 70 200 200 200 200
F975
T303
(Mineral oil base)
100
100 100 100 100
A941 A795 A275 A437 A571 A368 A103
<0 CD
100 120 100
A941 A795 A275 A437 A571 A368
T599
CD to
120
-- 55 -11.6 - 3.5
+ +
+
1
-
5.0 4.7 0.3 0.2 1.1
0.7 1.8 2.9 2.8 1.5
0.5 1.6 1.0 1.1 0 0.7 1.0 0
0.6
"
1
70
+
2
0
70
+
1
- 0.7
-3 -2 -1 -1 -3
+ 1.5
+
1.1
+ 0.4 + 0.2 + 3.3
©
Hardnes Volume Test Test NOK Lip Temperature Change Change tfsSara Duration {DwoowlwAl fefreerai Material (%) (h) (points) re>
Sealing Fluid (Manufacturer)
(Ester base) ISOFLEX NBU 15 (NOK Kluber) (Mineral oil base) SEALUB S-1 (NOK Kluber)
A727 A103 A275 A571
70 100 100 80 100
T599
120
F384
A727 A103
(Poly a olefin base) SEALUB S-14 (NOK Kluber)
T303 S728 (Mineral base) Anbligon TA 30/0 (NOK Kluber)
Greas
A727 A727 A103 A727 T303 A727
Beacon 325 (Esso) O.S. Grease No. 1 (Kyodo Oil and Fat) Multemp MS No. 2 (Kyodo Oil and Fat) Multi Knock Urea (Nihon Sekiyu)
T599 F585
Albania Grease 3 (Showa Shell Sekiyu)
A103
Albania EP Grease 2 (Showa Shell Sekiyu)
150 100 70 100 150 150 100
70 60 100 130
70 100 120 120 150 175 100 120 150
(Glycol ether base) DOT 3 (Nihon Sekiyu)
A275 A727
100 100
T303 S728
100
F585 E309
cu
R189 A727 T303 S728
(Glycol ether base) DOT 5 (Nihon Sekiyu)
Q>
PT
O
(Silicone oil base) DOT 5 (Sanshin Chemical)
S728 F384
150
T303 S728 F585 E309 R189
2 f—
MIL-S-3136 Type 2 MIL-S-3136 Type 3 MIL-H-5606 Aerohydraulic Oil HFA (Mobil Sekiyu)
c* Q.
- 195 -
100 100 100 100 100 100 100 100 100 100 100 too 100 25 20 100 80 150
F585 E309 R189 A727
cL
100 100 100
F384 F384 A727 At 03
70 70 70 70 70 70 70 70 70 70
70 70 70 70 70 70 70 70 70 70 70 70 70 70 500
70 500 70 500 70 200 200 200 200
200 200 200 200 200 200
200 200 200 200 200 200 200 200 70 72 70
-
0 1 2
+
1
+
-
0 3 2 0 0
-
0.2
+ 0.6
+
+
-
2.1 7.1 1.8 3.3 2.9 0.8 3.5
3 3
-
--
8
+ 15.0
+
1
-
+
-17 -10 1 5 -19 2 2
-
—
-
1
0
+ 1
+ +
6
3 5 0 4
5 1
-33 -42 3
-
-35
-
4 7 -42 -40
--53 4
-5 -9
—
5
-
9 -18 -17
70
-6 -4 -1 -4 -3 -1
70 70
-
-18 2
4.8 0.8
1.4
+ 23.0
X
+
A
10.1 + 2.7 X
1.4
+ + + +
30.7
1.9
+
1.1 2.0 2.4 0.2
-
0.1 0 0.2
+ +
X
1.4
+ +
A A
0.2 2.3 6.3 + 70.1 + 131.2 + 4.0
X X
+ +
X
-
+
54.0 4.2 11.5 71.5
+ + 126.1 + 3.7 + 121.0
X X
X X
X
+ 3.2 + 11.5
+ + + + +
+ + + + + + +
5.9 5.3 40.1 22.5 5.2
X X
5.3 0.7 1.1 7.7 4.1 83.1 3.1
X
J-21
Oil Resistance Data Hardnes Volume Test Test NOK Lip Temperature Change Change fesaxe Duration tDofomowAl Material (h) (%) Ralrara (points)
Sealing Fluid (Manufacturer) MIL-O-6081B Aplex M Turbo 201/1010 (Mobil Sekiyu)
MIL-L-6082 Grade 1065 MIL-L-6086 Type 1
F384 F384 At 03
S728
MIL-L-6086 Aeroshell Fluid 5L
S728
F384
MIL-L-7808 Esso Turbo Oil TJ-15 (Esso Sekiyu)
S728
F384
100 200 100 100 25 150 175 100 100
150 175 200
£
=
MIL-L-7808 (Aplex S Turbo #256 (Mobil Sekiyu)
S728
120
F384
150 120 150
Q.
200 MIL-L-7808 Esso Turbo Oil #35 (Esso Sekiyu) MIL-L-23699 Esso Turbo Oil 2380 (Esso Sekiyu) MIL-L-23699 Esso Extra Turbo Oil #274 (Esso Sekiyu)
F384 F384 A727
8
98
200
200
A727 A103
98 98 98 98 98 98 98 98 40 20
T303
40
168
A368 A989
Water
At 03
T303 S728 S817
F585 Sea water
J-22
-
196
70 70 70
70
CD
Distilled water
72 70 72
200 200
3
Castor oil Turpentine oil
70
98 98
S728 A103
o
70 70 70 70 70
60
F384
KF96 10cSt (Shin-Elsu Chemical) KF96 10OOOcSl (Shin-Elsu Chemical)
70 70
F384
5'
CD O
(/)
+ 0.4 + 18.1 + 3.5
A727 A941 A275 A571
T303
-
+ 77.5
70 70 70 48 100
166 100 166 200 100 166 200 70 70
70 70 70
200 200 200 200 200
200 200 168
320
-4 -5 -8 -9
-11
-14 2 5 9 2
-
7
-16 -11
-8 -5
—
+
-
+ 7.7 +31.4 +27.6
1
+
1
-
2 -20
+
7
+
9 4
3 1
+ 5 0
+
A
A
X X
0.2 0.2
-
0.8 0 0.2 0.5 0 + 75.8 6.3
-
X
6.9
A
+ 8.0 + 2.1
A
+ 2.8 + 6.8 + 9.5
+ 1.6 + 5.5
-27 + 1 0 + 1 1
+46.8 + 3.4 + 1.0 + 8.0
3
0.8 +21.8
5
A
7.2 5.1 6.7 0.8
-2 -2 -1 -6 -5
-
A
+ 12.6 + 4.6
4
+
4.9
5.1 9.0 + 12.5 + 3.8
-
1
A
+ +
4
3 3
1.0
+ 10.4 + 11.5 + 20.5 +28.3
+ +
+
-
+
5 2 2
-
X
+10.3 +
S728 A103
Daifuroru #20 (Daikin Industries) BARIERTA J100 FLUID (NOK Kluber)
2.7
+ 6.1
0 8
150 120 120 100 70 70 70 70 70 70 70 70 100 100 120 120 100
F384 S728 A103
+
0
F384
150
-17
-6
+ 0.7
70 70
150
S728
T C
150
-
0 0 3
70
T303 S728 MIL-L-23699 Mobil Jel Oil II (Mobil Sekiyu)
o
120 200
70 72 70 76 70
+ 2.4
+ 8.0
+
+ +
5.2
X
A
1.7
X
Oil Resistance Data NOK Lip Material
Sealing Fluid (Manufacturer)
Water
Sea water
S728 F384
ASTM No.1 oil (Nippon Sun Sekiyu)
A727
A103
Test
(h)
40
168
40 too 120 80 100 120
168 70
A795
T303 S728
F384
A727
ASTM No.3 oil (Nippon Sun Sekiyu)
A103
A104
A795 T303
a
t/>
o
'
S728
ASTM flame-retardant oil B ASTM llame-retardant oil C ASTM service fluid No. 101
19?
1
+ 2 + 3
100 130 100 150 175 150 175 200 150 175 100 120 80 100
120
70
130 100 130 100 150 175 150
70 70 70 70 70 70
175
70 70 70 70
F384
200
-
3
+ 1
70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70 70
F384 F384
S728
-
+
200 150 175 25 25 20
F384
Hardnes Volume Change Change ResSans Fttoral <%) (points)
(C«jrom«ar A)
70
130 A104
Test
Temperature Duration
70
70 70 72
70
+ +
4
4
+
5 3 3 6 3
+
6
+
1
+ +
+
-2 -8 0
+
1
-6 -9 -8 -9 -7 -9 -8
- 09 -4 -1 -7
+ +
-
--
0.4
0
0.1
© © 0 © ©
1.7
3.1 4.1
4.4 6.4 4.9 5.6 5.0 6.6 2.0
Q A
© A
O
©
3.2
A
3.5 7.0
©
+ + 6.2
A
0.1
O
+
-
+
X
0.2
+ 10.0
0
+ 10.1 + 10.3 + 11.7 + 9.5 + 10.8
A
A
+ 8.7
o
+ +
A
+ +
+ +
10.0 2.5 9.5 11.1
©
o
A
27.5
A
40.0 -21 + 47.5 0 + 0.9 + 1 + 2.3 lircreasura&'e +215.0
X
-11
-1 -4 -6
+ + +
X
© X
0.7
©
1.1 7.8
o
J-23
(
Chemical Resistance Data
Note: Refer to page J-6 before use.
Test
Hardnes Volume Test NOKLip Temperature Duration tessrce Change 'Duooxdsr At Change RSn»al Material (%f CC) (h) (points)
Sealing Fluid
Oleic acid
Oxalic acid
40 40
168
F384
40
168
0
A727
40 40
168 168
+2
40
168
-9 -1
F384 A727
40 40
T303
40
S728
40 40
168 168 168 168 168
0 -10 -10 3 8
-
168 168
-
T303 S728 O
3
Maleic acid
o' to
o w
1
F384 A727 T303
Tannic acid (saturated solution)
1
S728
F384 A727 T303
Gallic acid
S728 F384 A727
10% ammonia aqueous solution
T303 S728 F384 A727 T303
28% ammonia aqueous solution
S728 F384 A727 T303
10% sodium hydroxide solution (saturatedsolution)
S728 F384
A727
40% sodium hydroxide solution (saturated solution)
T303
>
S728 F384
o[ tn
40% potassium hydroxide solution (saturated solution)
-
199
-
+
3
+
2 5 5
+
--18
40
168
40 40 40
168 168 168 168 168 168 168
5 -29 + 3 -10
168
+
168 168 168 168
-10 3 -10 + 1
40 40 40
40 40 40 40 40 40 40 40
7
-3 +
5 3 -16 +9
-
4
3
-
+ +
+ + + +
+ 118.0 + 3.0 + 30.1
+ +
+
+
168 168 168 168 168 168 168 168 168 168
+
8
-1 -7
1.5 7.1 9.0 0.9
A
18.9
X X X
X
-
3.3 + 4.4 + 2.3 + 38.5 + 1.0
2
+
1
+ 1.3
5 2 2 1
+ 16.2
-
+
X
lmnBasua»
+
-
+
X
X
+
4
—
X
0.5
+
"-
X X
10.6 3.7 0.3 31.5 10.0 8.0 0.4
1
+3
X
X X
86.2
+ 1.3 + 10.6 + 6.1
--20 --
ImireasuraNe
3.6 43.9
A X X
+
-15
40 40 40 40 40 40 40 40 40 40 40 40
90.3 41.7 11.2 6.4
X
X
-
1
0.5 25.3
A
-12
-
1.9 30.0
17.5
-3 -5 -1
168 168 168 168
20.0
+ 48.9 + 1.1 + 2.9 + 5.9
168
168
A
+ 0.6 + 1.3
168
T303
F384 A727
Calcium hydroxide (saturated solution)
14.8
168 168 168
40
T303 S728
15.8
+ + + + + + +
40 40 40
A727
A727
+
0
168
F384
S728 F384
4
40
168
A727 T303
Barium hydroxide (saturated solution)
168 168
168 168
S728 F384
Aluminum hydroxide (saturated solution)
40 40 40
40 40 40 40
T303 S728
o 3
40
168
40
A727
10% potassium hydroxide solution (saturated solution)
-
T303 S728
-
+
X
X
X A
X
1.8
X
0.6 1.2
+ 1.9 J-25
Plant Equipment
•Metal bellows •Couplings
IBellows valves
Meial bellows (welded bellows)
•Flexible printed circuit boards
Electronic Products
•Multi-layer flexible printed circuit board: "Flexboard"
•Hardware products •Panel keyboard
Flexible printed arcints
•Optoelectronics products Solid-state cameras
Optoelectronics Products
High-output solid-state lasers Infrared ray sensor: "Thermopile" High-speed image processors UV/visible/infrared detectors
Flash tubes/lamps
Solid-state cameras
•Special lubricants
Functional Products for Industrial Use and
•Fluorocarbon water/oil repellent: "Knocksguard"
Special Applications
•Fluorocarbon coating material:
•Solenoids
"Glitopan"
•Actuators
•Oil-less bearing: "Lubless" •Adapter to prevent cable disconnections: "SY Joint" •Carbon fiber combined carbon
•Inlet control valves •Valves •Oil separator/impurity filtration filter: "Raker Filter Separator" •Lead valves
•Electrodes for electric contact/electrical discharge machining: "Elmet" •Compressor valves
•High molecular hollow fiber membrane module
•Recoil starters
•Abrasive-resistant structural materials
Special lubricants
- 219 -
K-13
("
Chemical Resistance Data
")
Note: Refer to page J -6 before use.
Hardnes Volume Test Test NOK Lip Temperature Change Change tesa-ce Duration iOrowwxt taaaii Material (h) (%) (points)
Sealing Fluid
T303 S728
Calcium hydroxide (saturated solution)
F384 A727 T303 S728 F384
Magnesium hydroxide (saturated solution)
Cupric chloride (saturated solution)
A727 T303
S728 F384 A727
Sodium chloride (saturated solution)
T303 S728 F384 A727 T303 S728 F384 A727 T303 S728 F384 A727 T303
Barium chloride (saturated solution)
Magnesium chloride (saturated solution)
Potassium chlorate (saturated solution)
S728 F384
Potassium Permanganate (saturated solution)
A727
T303 S728 F384 Potassium chromate (saturated solution)
A727
T303 S728 F384 A727 T303 S728 F384 A727
Sodium chromate (saturated solution)
Lead acetate (saturated solution)
T303 S728 F384 A727
Ammonium bicarbonate (saturated solution) J-26
-
200
-
+ +
4
-
5
+ +
3 1
168 168
-
168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168
2 5 6 2
+ + + 1 + 5
+ 14.0 + 4.1 + 0.1 + 10.0
168 168 168 168 168 168 168
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
40 40 40 40 40 40 40 40 40 40 40 40 40 40
-
+30.2 + 1.1 + 1.6 + 1.9 + 39.5 + 2.1 + 2.5
40 40 40 40 40 40 40
168 168 168 168 168 168 168 168 168 168 168
168 168 168 168 168 168
4
+ 5
+
-
1
+ +
0 2.9 0.4
+
0.6
+
1 2 0 1 2 5 0 0 2 0 1
+
4
+ +
1
0 6.0 1.1 + 0.9 + 1.0 + 7.1 0.3 0.8 + 1.6 + 12.7 0.1
1
+
+
+
+
-
1
-
5 6
Q
o Q
o ©
o © ©
©
o
-
© ©
-
0.1
-
-10 7 3
X
©
© © ©
-
1
0 ©
-
Immeasurable Irrmeasurab'e -10 +46.3 0.2 +2 6 + 1.7 1 + 1.0 2 + 6.9 0.3 + 2 + 2 + 2.3 5 + 0.5 5 + 4.6
-
X
0
-- 0.4 2.0
+ 20.6 + 12.4 + 1.4 + 0.7 + 1.0
o
©
o 0 © X X
©
o
©
o
©
©
o X
© © X A
©
o
o
Chemical Resistance Data Sealing Fluid
Ammonium bicarbonate (saturated solution)
Ammonium nitrate (saturated solution)
Note: Reter to page J-6 before use. Hardnes Volume Test Test NOK Lip Temperature Change Change tesra Duration CDvomcrwA) Ralrasre] Material (h) (%) (points) T303
40
168
S728 F384
40 40
A727
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
168 168 168 168
T303 S728 F384 A727 T303
Silver nitrate (saturated solution)
S728 F384 A727
Lead nitrate (saturated solution)
T303 S728 F384 A727
Sodium nitrate (saturated solution)
T303 S728 F384 A727 T303 S728
Ammonium carbonate (saturated solution)
_ o <3
F384 A727
Potassium carbonate (saturated solution)
T303 S728 F384
a>
o w w
A727
Sodium nitrite (saturated solution)
T303 S728
§
F384 A727
Sodium sulfite (saturated solution)
T303 S728 F384
A727
40
T303
40 40 40
S728 F384 A727
Potassium chloride (saturated solution)
T303 S728 F384 A727 T303
Calcium chloride (saturated solution)
S728 F384
A727
Stannic chloride
- 201 -
40
F384
S728
Zinc chloride (saturated solution)
40 40 40 40 40 40 40 40 40
A727 T303
Ammonium chloride (saturated solution)
40
40 40 40 40 40
40 40 40 40
168 168 168
-13 1
-
0 0 +2 +2 -60 8 3 + 5
168 168 168 168 168 168 168 168 168 168 168 168 168
-
168 168
+ +
168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168
168 168 168 168 168
5
-
4
7
-
1
+
1
-5 -3 -1
-3 +
4
-14
-
© ©
+ 7.6
-4
+2
-5 -2 + 2 + 2
X
o
+ + + + + +
0.5 1.1 0.5 3.7 0.2 0.7
© © 0 0 0
3.0 +57.4
©
+
+ 8.2 + 0.9
0 1
©
+ 0.7 + 1.4 + 5.5 + 14.4
4
1
Q
©
0.3 + 2.1 0.2 0.3 Imrreasurabie
+
0
X
0
-
8
-2 -
+ 22.2 + 5.0 + 8.4
+
-
o o A
© X
4.1
Q ©
8.8 0.4 0.5 0.6 3.5
© ©
0.3
©
+ 0.7 + 0.5 + 4.4
© © © © ©
+ +
+ +
© A
o
A
+
1
+ 0.2 + 1.2 + 0.7
+
2 6 0
+ 5.1 + 0.1 + 1.2
1
+ 12.8
o
+ 10
+ 6.0
X
0
-
-
+ 6 + 5
+
0
-
2
+
1
168
+
1
+
168 168 168 168 168
-
1
-
+
1
+
+
2
-1 -6
+ +
-
0.5 0.7 0 4.6 1.5 0.5 0.5
0.5 0.1 0.4
-22.6 +
o 0
© 0
© © 0 0
0
© X
J-27
( Chemical Resistance Data ) Sealing Fluid
Slannic chloride
Mercuric chloride {saturated solution)
Ferric chloride (saturated solution)
Note: Refer lo page J-6 before use. Hardnes Volume Test Test Lip NOK Change Change Resslaree Temperature Duration 'CAircnefffAl Ratiwd Material (%) (points) (h)
.
T303 S728 F384 A727 T303 S728 F384
A727 T303
S728 F384 Sodium carbonate (saturated solution)
A727 T303
S728 F384 Alum (potassium alum) (saturated solution)
A727
T303 S728 F384
Potassium iodide (saturated solution)
F384
3
o
<3
A727 T303 S728
Sodium sulfide (saturated solution)
tu
rj
o
A727 T303
S728
in
« w
Zinc sulfate (saturated solution) 3
s
F384 A727 T303
S728
Ammonium sulfate (saturated solution)
F384 A727 T303
S728
Potassium sulfate (saturated solution)
F384 A727
T303 S728 F384
Calcium sulfate (saturated solution) (gypsum)
A727 T303
S728
Ferrous sulfate (saturated solution)
F384 A727
T303 S728
F384
Ferric sulfate (saturated solution)
A727 T303
S728 Copper sulfate (saturated solution) J-28
F384 A727
- 202 -
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
168 168 168 168 168 168 168 168 168 168 168 168
-
168 168 168
168 168 168 168 168 168 168 168 168 168 168 168 168
168 168 168 168 168
8
+ 13.9
A
1
X
-11
+ 1.5 + 9.0
+ 7
+ 27.4
-16
+44.7
-1 -2 -6
+ 2.8 + 1.6
-5 + 5
-
0.2
5 1
+
-10 0
+
0.2 7.3
+
1
-
+ +
1 2
+ 1 + 4
-
0.5 0
Immeasurable
-
+ 13.9 + 9.8
-3 -8 5 + 7 -10 +2 2 1 +8
-
-
0.3 0.6 0.3 2.7 0.8
+
X
1.1
+
-
X
1.5
1
-+ 2
-
168 168 168
-
1.0 3.5 0.8
+
168
168
+
X
0 1.4
0
168
168 168 168 168 168 168 168 168 168 168 168 168
-
1
-18 +2 -17
A
- 0.7 - 3.2 + 2.3 +22.9
2
X X
1.9
2 -10 + 5
+ 8 + 4
168
+41.0
+ 41.6
X X
A A
+ + 0.1
+
1.9
+ 9.7
+
A A
0.2
+ 2.0 + 2.5
+39.8
X
+4 + 1 + 5
+ 0.7
-
5
+ 12.0
A
1
+ + + +
2.1 0.9 2.5 5.9
X
-
0.4
+
8.3
3 2
-13 5 6 3
-
+
1.3
+ 1.7
+ 2.3
o o
Chemical Resistance Data
Note: Refer to page J-6 before use. Hardnes Volume Test Test NOK Lip Change Change iteSws Duration (IXxotHftofA) Bairaral Material Temperature <%) (h) (points)
Sealing Fluid
Copper sulfate (saturated solution)
T303 S72S F384
A727
Sodium sulfate (saturated solution)
T303 S728 3 O (Q
F384 A727
Nickel sulfate (saturated solution)
3
T303
o' W
S728 F384
0>
? 1
Magnesium sulfate (saturated solution)
A727 T303
i
S728 F384 A727 T303
Disodium hydrogenphosphate
S728 F384 A727 T303
Methyl alcohol
S728 F384 A727
Ethyl alcohol
T303 S728 F384 A727
Isopropyl alcohol
T303 S728 ÿ>
F384 A727 T303
Butyl alcohol
o o zr o
S728 F384
0)
Isoamyl alcohol
A727
T303 S728
F384 A727
Ethylene glycol
T303
S728 F384 A727
Glycerin
T303 S728 F384 :>
a
A727
Formalin
T303
81
S728 F384 Acetaldehyde
A727 203
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
168 168 168 168 168 168 168
168 168 168 168 168 168 168
168 168 168 168
+23.1 + 0.3 + 2.1 + 1.0
X
7
+ 12.4
A
+ 2 + 5
+ 0.1 + 0.4 + 0.6 + 16.7 +30.0 + 0.8
-16 5 + 7 +5
-
— — — — — — — —
-
+
3 9 1
168 168
-- 86
168 168
-32 3
40
168
40 40 40
168 168 168
-18 -10
40
168
40 40 40 40 40 40 40
168 168 168 168 168 168 168
40
168
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
168 168 168 168
168
-
-29 8
-
-13 -8 -18 -10 8 -18 -12 -12
-
--
1
4
-23 -12 -5
-
4
168 168
-20 0
168
0
168
0 5 0 + 1 8 -16 3
168 168 168 168 168 168
168 168
+ 0.6
+
A
A
+46.2
+ 2.0 + 17.9 + 6.6 + 50.6 + 12.6 + 9.8
+
X
4.8
X A X
7.4
+ 57.7 + 11.4
X A
+ 4.8
+ 12.9 +58.0 + 20.2 + 2.7
-
-
-
-
+
7.1
+ 41.3
-
X
0.3
2.9 0.5 0.8
+
X A
1.1
+ 18.1 + 0.9
+
A
X
0.3
+47.3 +20.8 + 1.9
+ +
4
X
0
—
17
A
+ 1.3
+ 17.8 + 0.9 + 1.7 + 1.5 + 12.4
+ 0.5
-
X
X
1.0
0.4
+ 66.1
X J-29
( Chemical Resistance Data ) Hardnes Volume Test Test NOKlip Temperature Change Change tesate Duration torawwrl Ffereea' Material (h) (%) (points)
Sealing Fluid
Acelaldehyde
T303 S728
£
F384
ÿf IS
A727 T303 S728
Melhyl ethyl kelone
a SS
F384
A727
Methyl acetate
T303
S728 F384 A727 T303
Ethyl acetate
S728
m
F384 A727 T303
Butyl acetate
CO
CD CO
S728 F384 A727 T303
40
40 40 40 40 40 40 40
40
168
168 168 168 168
168 168 168 168
168 168 168 168 168 168 168 168 168 168 168 168
F384
40 40 40 40 40 40 40 40 40 40 40 40
A727
40
T303 S728
A727 T303
40 40 40 40 40
I
S728
40
Q.
F384 A727
40
168 168 168 168 168 168 168 168 168 168 168 168 168 168
40
168
T303 S728
40 40
168
F384 A727
40
168 168
Isoamyl acetate
S728 F384 A727 T303
Dibutyl phthalate
S728 F384 A727 T303 S728
Isooctane
Liquid paraltin
F384
Kerosene
O
O W
1.2-dichloroethane
Trichlene (trichloroethylene)
T303 S728
F384 A727 S728 F384
1.1.1-trichloroethane
J-30
40 40 40 40 40 40 40 40 40 40
-
204
-
40 40 40 40 60 60 60
168
-31 8 -52 -24 -27 -12
+ 58.1
+ 102.0 + 139.0 + 20.0
A
MS*®
318*88
X
-29 -39 9
+ 59.3
X
-19
+
X X
-25 -12
+
A
-
-
—
318*88 -26
+ 85.8
+210.0 + 13.3 + 203 81.1 + 102.0
21.5 318*88
X
o X X X
X
o X X X
-32 -23 3)8*118
318*88
-19
+ 79.8 +165.0 + 91.9
X X
+104.0
X X X
-27
-19
—
-24
168
-29
-
1
-26 7
-
8
-16 3
-
1
5
0
-
2 9 5
-22
-
1
— — — —
+139.0 +154.0
X X X
X
+ 3.4 + 60.8 + 2.6
Q
+
A
8.1
X A
+ 77.7
X
+ +
0
8.4 0.7 + 2.7 + 4.6 + 3.5 + 7.6 + 8.9 + 107.0 + 1.4 +243.0 +310.0 + 36.5
+
55.3
Q
© ©
0 A A
X
© X X X X
+ 132.0 + 222.0
X X
-25
+ 98.5 + 70.6 + 134.0 + 46.3
-12
+ 110.0
-21
168
-33 -19
168
-47
48 48 48
-16
168
CO O
+123.0 +129.0 + 105.0
168 168
168
+
X X X X X
Chemical Resistance Data Hardnes Volume Test Test NOKLip Change Change FteSsTO Temperature Duration iDwomuWAJ fbtaeiil Material (h) (%) (poinls)
Sealing Fluid
Benzene
A727
T303 S728 F384 A727
Toluene
T303 S728 F384 A727
Methaxylene
T303 S728 F384
I
a o
Q>
3o
Ethylbenzene
A727
Slyrene
T303 S728 F384 A727 T303 S728 F384
3
CO
X
o
CO
CD
o
JD
cd
Q. 3"
"<
Q.
O
o
01 ao
Monochlorobenzene
A727
Trichlorobenzene
S728 F384 A727
T303
o
at
T303 S728 F384
Bromobenzene
A727
T303 S728 F384
Dioxane
A727
T303 S728 F384 A727
Phenyl ether (diphynyloxide)
s CO
o
T303 S728 F384 A727 T303
Phenol
CD
oT
S728 F384
o o
cd
c
at
A727 T303
Cresol
S728 F384 A727 T303
Aniline
S728 F384
205
40 40
168 168
-29 -27
+ 160.0
40
168 168 168 168 168 168 168 168 168 168 168 168
-22 -36
+ 120.0
40 40 40 40 40 40 40 40 40 40 40 40
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168 168
168 168 168 168
-23 -37 -22 -33 -14 -25 -16
+277.0
+ 130.0
X X X X X
+ 64.8 + 84.8
X X
+ 157.0
X X X X X X X X X X X X
+ 66.3 + 137.0 +241.0
-26
+ 80.0 + 48.8
-21
+
-30 -19
+ 114.0
-20 -27
+ 67.5
+
46.1 66.7
+ 176.0
-39
+253.0
-22
+ 177.0 + 37.5 + 213.0
-31 -23 -39
—
-25 -16 -31 -17 -16 -24
-32
+278.0
+ 120.0 + 77.8 + 165.0 +220.0
+ 25.3 + 18.6 +206.0
+ 250.0
-17 + 57.7 -21 + 25.7 -28 + 164.0 -24 + 168.0 6 + 8.3 hrreasuraWe Immeasurable
-
7
+ 15.1 + 73.5 + 10.0
+
1
+ 8.6
-35 -32 5 6
+ 113.0 + 150.0 + 4.0 + 19.1
-15 -25
-
Immeasurable Immeasurable
Immeasirable Immeasurable 0 + 0.8 3 + 3.4 -29 +217.0 -46 +290.0 0 + 2.3 5 + 147.0
-
-
X X
X X X X X X X
X X X X X
X X X X
X X A
X X A
X X X
J-31
C
Chemical Resistance Data j Sealing Fluid
Hardnes Volume Test Test NOK Lip Temperature Change Change fesaie Duration tXconxfo' A Rairaiia]
Material
A727 T303 S728 F384 A727 T303
Nitrobenzene
Urea (saturated solution)
S728 F384 A727 T303
Carbon disulfide
2
S728
v>
o ro tu 3
a>
F384 A727
Hydrogen peroxide water
T303 S728
o c w
F384 A727
Chlorine water
T303 S728
F384 A727 T303 S728 F384
Urea water
J-32
206
-
40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40 40
(h)
(points)
(%)
168 168 168
-25 -42 0
+ 199.0
-50
+ 103.0
X
0.8 9.2
A
168 168 168 168
2
-
-
9
+
1
+ + +
+
168
-
168 168 168 168
-20
168 168
168 168 168 168 168 168 168 168
168 168
+269.0 + 4.0
2
-11
0 -12 3 -53 1 0
-
4
8 " 3 -6 +3 -40
+
1
0
+ + + + + + + + + +
X X
0.3 1.2 47.8 47.7 3.7 12.3 10.5 78.2 1.7 0.9 3.1 54.3 19.5
+ + 3.0 + 21.7 + 394.0 + 22.6 + 2.5
X X X A X
X
X X A
Reference Data
ÿLinear Shad Velocity Quick Reference
-K-2
ÿA Comparison of NOK Type
and ISO, JIS, and JASO Type Oil Seals ÿShaft Sizes and Tolerance
ÿBore Sizes and Tolerance
— K-3
K-4 -
K-5 -
ÿBasic Tolerances for Large Applications ÿConversion Table for SI Units
— K-6
K-7
ÿSurface Roughness us Machining Method— K-7
ÿViscosity Conversion Table K-8 ÿTemperature Conversion Table
K-9
K-10 K-12
ÿKluBer Lubricants for Seal Use ÿNOK Products List
- 207 -
K-1
K. REFERENCE DATA Linear Shaft Velocity Quick Reference Table
Shalt diameter (mm)
( A Comparison of NOK Type and ISO, JIS, and JASO Type Oil Seals )
—_
Standard
Profile/shape
NOK
ISO
JIS
JASO
w wwÿx\ SC
TYPE
1
TYPE 1
S
SB
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TYPE 2
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TYPE 4
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K-5
BasicTolerances for Large Applications (JIS B0401)) Unit: 0.001 mm Bore Tolerances
Shaft Tolerances
Nominal Size Size Group (mm)
H7
h9
Over
Up to
500
630
630
800
800
1000
1000
1250
1250
1600
1600
2000
-370
2000
2500
2500
3150
+ 700
80 0
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0
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0 -310
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+210
+ 330
+2100
0
-200 0
-230
0 -260
+
70
+ +
o
0
0
0 -540
900
0 0
0
0
0
0
dyn
0
0
0
0
0
0
0
-440
N 1
H12
+ 110
0
-175
( Conversion Table for SI Units ) n o
i
H8
Upper tolerance Lower tolerance
0
ti>0 enclosed sections show the SI unit conversions.
op
Pa-s
kgf
1X105
1.019 72X10"
1X10-5
1
1.019 72X10
9.806 65
9.80665 X105
>*
o
1
w.
1X10-3
0
6
1X10
1
'
P
1X103
1x10
1
1X10
1X102
1
2
Note: lP=1dyn-s/cm?=1g/cm-s. 1Pa-s = 1N*s/mJ. 1cP=1mPa-s
kPa
Pa
-o 3 w
»
3
MPa
kgf/cmi
bar
mmHg or Torr
mmH?0
aim
1
1X10-S
1X10-'
1X10 s 1.019 72x10-s 9.869 23x10-1 1.019 72X10"
ixio3 ixijy
1
1X10-1
IXIO2
1
1X10-1 1.019 72X10-1 9.869 23X10-7 1.019 72X107 1.019 72 x10s 1X10 1.019 72X10 9.869 23
1x101
1X101
1X10
'
9.806 65X10= 9.806 65X10
9.806 65X10-1 9.806 65X10
1.013 25X105 1.013 25X101
1.013 25X10" 1.013 25
'
1.033 23 1X10
7.500 62X107
1.033 23X10= 7.600 00x10=
1
'
7.500 62x10=
1X10" 7.355 59X107
9.678 41X10"
1
9.806 65X10-3 9.806 65X10"6 9.806 65X10-'
9.806 65
9.869 23X10-' 1.019 72X10*
1.019 72
1
7.500 62X101 7.500 62
9.678 41 X10-1
7.355 59x10-7
1
1.333 22 x 102 1.333 22X10" 1.333 22X10-' 1.333 22X10-1 1.359 51X10-3 1.315 79X10-7 1.359 51 X10
1
-
Note:iPa iN/m2
Pa or N/m2
MPa or N/mm2
kgf/cm2
kgf
5=
cSt
S,
1
1X10®
1X10=
1X10-6
1
1X102
1X10"=
1X102
1
m2/s
Oi
Stres
1
IXIO"6
1.019 72X10-7
1.019 72x10-5
3
1 X106
1
1.019 72X10"
1.019 72x10
8
9.806 65x107= 9.806 65 9.806 65X10= 9.806 65X10-7
1
1X102
1X10-2
1
Note: IPa =1N/m*.1MPa= tN/mm?
K-6
-
212 -
!
Note: 1St=lcm2/s. lcSt=lmm2/S
(
( Surface Roughness vs Machining Methods )
Hardness Conversion
1
Approximate conversion value for Rockwell C hardness of steel A STM Rocknel
Rockwell
Hardness Shore Rockwell yxK-. Vtckers C Scale Hardness Standard Hardness Hardness Hardness
Method
Symbols
C Seals
Call
68
67 66
65
940 900
865 832
—— —
—
—
64
800
—
63
772
—
62 61 60 59
720 697 674
58 57
746
653 633 613
—— ——
54
577
—
53
560
52 51
544 528
500
487
50 49
513 498
475 464
48 47
45 44
484 471 458 446 434
43 42
423 412
41
402
46
40
66 65 64
DC
—
92 91 88
Die casting
—
Hot rolling
HH
—
87 85
63 62
83
61
81 80
60 59
78
58 57
76 75
CR
Drawing
DW
Extruding
EX
Tumbling
TU
Sand blasting
SB
Rolling
RL
Face milling
71 69
53 52
68 67
51 50
66
49
Rounding
T
451
64
48
Boring
B
442 132 421 409
——
63 62
47 46
Drilling
60
45
Reaming
DR
58
44
BR
400
—— —— — — (109.0)
57
SV
Grinding
G
54 52
43 42 41 40 39
Broaching Shaving
51 50
38 37
49 48 47
36 35 34
46
33 32
_
390 381
_ -
—
36
358 344 336
35 34
345 336
327 319
(108.5)
33 32
327 318
311 301
31 30 29
310 302 294
294 286 279
(107.5) (107.0) (106.0) (105.5) (104.5)
28 27 26 25
286 279 272
271 264 258
266
253
24
260
247
23 22
254
248
243 237
21
20
243 238
231 226
(18)
230
219
(16) (14)
222 213 204 196
212 203 194 187
188
179
(108.0)
56 55
44
41
31 30 29
41 40
28 27
38 38
26 25
37
24
(100.0) (99.0) (98.5)
36
23
35 35
22 21
97.8
34
20
96.7
33
(18)
95.5
32
(16)
93.9 92.3 90.7
(14) (12) (10)
89.5
31 29 28 27
(6) (4)
(104.0) (103.0) (102.5) (101.5) (101.0)
43 42
(6)
180
171
87.1
26
(4) (2) (0)
173 166 160
165 158 152
85.5
25 24
83.5 81.7
24
Fi e
Planing
P
Slotting
SL
Milling
M
F 0
F
le
:
Fine
—
—
. visile .
ftoogh
Ft e
D
GH
Super-finishing
GSP
Buffing
SPBF
Papering
FCA
Hydro-honing Burnishing Roller finishing
-
FF
Honing
Lapping
-
F
FB File finishing
*
_
FM
55 54
372 363 354
(12) (10) (8)
56
Cold rolling
74 72
371 362
38 37
C
Casting
392 382
39
FG
68 67
—
——
Jo symbo s or
Forging
97 95
_
595
56 55
-
Roughness -...Range /
FL
hn Fine
"Tine"
r
• Middle
P
Rough
Fi Fi
He F. 0
l-l e
FrlO
SPLH RLB RF
r
Chemical polishing SPC
Electrolytic polishing SPE
'.ft
Fi
(8)
(2)
(0)
- 213 -
K-7
(" Viscosity Conversion Table) Saybolt
Redwood
SUS (second)
R (second)
Engler E (second)
Centistoke cSt
Redwood
Engler
R (second)
E (second)
Centistoke cSt
35
32.2
1.18
2.7
475
419
13.5
103
40
36.2
1.32
4.3
500
441
108
45
40.6
1.46
5.9
550
485
14.2 15.6
50
44.9
1.60
7.4
600
17.0
130
55
49.1
1.75
8.9
650
529 573
18.5
60 65
53.5
1.88 2.02
10.4
700
617
19.9
141 152
11.8
750
661
21.3
163
2.15
13.1
800
705
22.7
2.31
14.5 15.8
850
749
24.2
173 184
900
793
25.6
195
17.0
950
837
27.0
206
18.2
1000
882
28.4
217
19.4
1200
34.1
260
20.6 23.0
1400
1058 1234
39.8
302
75
57.9 62.3 67.6
70
K-8
Saybolt
SUS (second)
80
71.0
2.42
85
75.1
90
79.6
95
84.2
2.55 2.68 2.81
100
88.4
2.95
119
1411
45.5
1587
51
347 390
1763
57
433
2204
71
542
85
650
29.8
1600 1800 2000 2500
32.1
3000
2646
4.59
34.3
3500
3087
99
758
4.88 5.15
36.5
4000
3526
114
867
38.8
4500
3967
128
974
5.44
41.0
5000
142
1082
43.2
5500
156
1150
194
5.72 6.28
4408 4849
47.5
6000
5290
170
240
212
6.85
51.9
6500
5730
185
260 280
229
7.38
7000
6171
7.95
7500
6612
199 213
300
247 265
56.5 60.5
1300 1400 1510
8.51
64.9
7053
325
287
9.24
70.3
8000 8500
350
309
9.95
75.8
9000
375
331
10.7
81.2 86.8 92.0
9500 10000
110
97.1
3.21
120
105.9
130
114.8
3.49 3.77
27.5
140
4.04
150
123.6 132.4
4.32
160 170
141.1 150.0
180
190
158.8 167.5
200
176.4
220
400
353
11.4
425
375
450
397
12.1 12.8
25.0
97.4
- 214 -
7494 7943 8375
8816
227 242
1630
1740 1850
256
1960
270 284
2070 2200
How to read the tabic: To convert 38'C to degrees Fahrenheit, lirst find "38" in the middle column (10th line from the top) of the second row, and then read across to the figure on the right in the *F column. 38*C is 100.4*F. To convert 38* F to degrees Centigrade, find the column on the left to determine that 38" F is 3.3*C.
Temperature Conversion Table ) c— -F
•<"> o
. •- r
-r"
ÿ
*C—
-TÿC
.5,
•- r
"r-
C— -F
C-
—
-"F
C
—
F
C-
—
-F
210.2
-73
-100
-148
-1.6
29
84.2
17.7
64
147.2
37.1
99
-62
- 80
-112
-1.1
30
86.0
18.2
65
149.0
37.7
100
212
-51
-29
- 60 - 40 - 20 -
212.7
-23.3 -17.7
-0.6
31
87.8
18.8
66
150.8
38
100.4
0
32
89.6
19.3
67
152.6
43
110
230
4
0.5
33
91.4
19.9
68
154.4
49
120
248
- 10
14
1.1
34
93.2
20.4
69
156.2
54
130
266
0
32
1.6
35
95.0
21.0
70
158.0
60
140
284
-17.2
1
33.8
2.2
36
96.8
21.5
71
159.8
65
150
302
-16.6
2
35.6
2.7
37
98.6
22.2
72
161.8
71
160
320
-40
- 76
40
-16.1
3
37.4
3.3
38
100.4
22.7
73
163.4
76
170
338
-15.5
4
39.2
3.8
39
102.2
23.3
74
165.2
83
180
356
-15.0
5
41.0
4.4
40
104.0
23.8
75
167.0
88
190
374
-14.4
6
42.8
4.9
41
105.8
24.4
76
168.8
93
200
392
-13.9
7
44.6
5.5
42
107.6
25.0
77
170.6
250
482
-13.3
8
46.4
6.0
43
109.4
25.5
78
172.4
|
121 149
300
572
-12.7
9
48.2
6.6
44
111.2
26.2
79
174.2 I
177
350
662
-12.2
10
50.0
7.1
45
113.0
26.8
80
176.0
204
400
752
-11.6
11
51.8
7.7
46
114.8
27.3
81
177.8
232
450
842
-11.1
12
53.6
8.2
47
116.6
27.7
82
179.6
260
500
932
-10.5
13
55.4
8.8
48
118.4
28.2
83
181.4
288
550
1022
-10.0
14
57.2
9.3
49
120.2
28.8
84
183.2
315
600
1112
-
9.4
15
59.0
9.9
50
122.0
29.3
85
185.0
343
650
1202
- 8.8
16
61.8
10.4
51
123.8
29.9
86
186.8
371
700
1292
- 8.3
17
63.6
11.1
52
125.6
30.4
87
188.6
399
750
1382
- 7.7
18
65.4
11.5
53
127.4
31.0
88
190.4
426
800
1472
- 7.2
19
67.2
12.1
54
129.2
31.5
89
192.2
454
850
1562
- 6.6
20
68.0
12.6
55
131.0
32.1
90
194.0
482
900
1652
- 6.1
21
69.8
13.2
56
132.8
32.6
91
195.8
510
950
1742
- 5.5
22
71.6
13.7
57
134.6
33.3
92
197.6
538
1000
1832
- 5.0
23
73.4
14.3
58
136.4
33.8
93
199.4
538
1000
1832
- 4.4
24
75.2
14.8
59
138.2
34.4
94
201.2
593
1100
2012
- 3.9
25
77.0
15.6
60
140.0
34.9
95
203.0
648
1200
2192
-
3.3
26
78.8
16.1
61
141.8
35.5
96
204.8
704
1300
2372
- 2.8
27
80.6
16.8
62
143.6
36.1
97
206.6
760
1400
2552
- 2.2
28
82.4
17.1
63
145.4
36.6
98
208.4
815
1500
2732
- 215
K-9
ÿKLUBER Lubricants for Oil Seal Use NOK hascreated the NOK KLUBER Company through a merger with KLUBER LUBRICATION' of Germany, which has over a century of experience in the field of specialized lubricants, and also supplies KLUBER lubricants for oil seal use. NOK KLUBER combines proven technologies from both companies, resolving various lubrication problems by utilizing our vast experience and extensive developmental activities.
3. Handling KLUBER Lubricants in Seal Use •Coating Apply a coating evenly to the lip contact face. (Refer to the photograph on page G-3.)
For details, refer to the Special Lubricants Catalog (Cat. 701).
NOK KLUBER has established a complete system to respond to user needs for extreme conditions, such as high or low temperatures, high speeds, or high loads, based on our unparalleled experience.
1. NOK KLUBER Lubricants •General parts lubrication parts Anti-friction bearings, Slide bearings, Chains, Toothed wheels, various kinds of valves.
•Lubricants for specialized applications Oxygen systems, vacuums, slide members, food processing machinery, textile machinery, various conveyers. •Other specialized lubricants Silicone lubricants, solid lubricants, special mold lubricants, preservatives, and lubricants for oil seal use.
2. Features of NOK KLUBER Lubricants •Extremely high or low temperatures Liquid lubricants :—70 to 280"C Dry lubricatants : 1200'C
•High speeds Dm-N value: 1,500,000 •High loads The load opacity is two to four times that of general
lithium grease. •Long service life
Proven record of 12,000 hours at 200"C •Resistance to severe application conditions Excellent resistance to water, steam, seawater, acids,
alkalis, and other chemicals •Compatible with machinery Docs not degrade rubber, resins, plastics, and paint
K-10
- 216 -
KLUBER Lubricants Suitable for Oil Seal Use Effect on Rubber ***•(«>
Application
Name
General
SEALUB S-l
Water resistant
SEALUB S-8
Low temperature' high speed
SEALUB S-14 Klubersynth
Food processing
UH1 64-2403
machinery
PARALIQ
GTE703
High temperalure/ solvent resistant/ chemicals
BARRIERTA L55/2
Nitrite rubber
Working Consistency Fluoro- Chloro- Ethylene temperature (NLGI) Acrylic Silicone carbon range propylene (*c) prene rubber rubber rubber
rubber
Examples of use
Features
General-purpose lubricant for use with rubber
Excellent resistance to water and steam
33
—30—120
2
Automobiles, construction machinery, agricultural machinery
-40-160
3
Automobiles, household appliances
X
—50—150
2
Automobiles, household electrical appliances
X
-30-140
3
o
-50-150
3
o
-35-260
2
X X
c
CO
m
rubber
May be used in extremely low and high temperature conditions
rc a2, o
Q>
3 >
I-4-
>
Food/beverage producers
O
X
O
o
Note(1) Effects on rubber
O: Resistance
X: No resistance The indicated effects on rubber are based on a general evaluation. Before use. pie check the relevant working conditions.
USDA H1 approved ' Excellent resistance to water and steam
c
r*
0)
IT
a> Automobiles, chemical plant equipment
Excellent resistance to heat, solvents. and chemicals 8USDAH1 lubricant A lubricant approved by the U.S.
Department of Agriculture (USDA). Its use in areas whore it may contact food incidentally or through structural means is permitted.
o O (D (0
w
C c/> a>
NOK's Product Portfolio Sealing products
•Oil seals •Magnetic tluid seals •Packings
•O-rings •Mechanical face seals
•Rubber-coated metal: "Soft Metal" gaskets
•Static metal packings
•Cullets •Seal washer
Magnetic fluid dust s
ISynthetic rubber materials IPolyurethane rubber: "Iron Rubber"
Industrial Rubber/ Plastic Products
products
IPolyurethane rubber: "Iron Rubber" belts
ITraffic signs and accessories lEngineered plastic products iPhenol resin molding materials
Polyurethane rubber "Iron Rubber" products
Vibration Isolators
•Rubber vibration isolators
Rubber vibration isolators
Hydro-Pneumatic Equipment
•Bladder hydro-pneumatic accumulator •Small bladder hydro-pneumatic accumulator: "Minilator"
•Piston hydro-pneumatic accumulator •Small spherical hydro-pneumatic accumulator: "MU" •Expansion tank
•Pneumatic equipment
Bladder hydro-pneumatic accumulators
K-12
- 218 -
©NOK CORPORATION
Ptintcd in Japan
Overseas Sales 8 Marketing Department Sales 8 Marketing Division Zecord 1058585
11215 Shfca Damn Mmato-ku. Tokyo. Japan
The contents is subject to change w ithout notice.
AH compatibility data, application information, design 8 matorial information and technical dela in this catalogue are compted as a reteronco material to mako a basic packing selection. A selected standard design from this catalogue may not comform to the actual use of an application, due lo unknown factors in the appfcation. Please comfirm the actual compatibility of a selected product with your appli¬ cation beforo using it.
- 220 -
|