astm.b152.1997

By Authority Of THE UNITED STATES OF AMERICA

Legally Binding Document By the Authority Vested By Part 5 of the United States Code § 552(a) and Part 1 of the Code of Regulations § 51 the attached document has been duly INCORPORATED BY REFERENCE and shall be considered legally binding upon all citizens and residents of the United States of America. HEED THIS NOTICE: Criminal penalties may apply for noncompliance.

e Document Name:

ASTM B152: Standard Specification for Copper, Sheet, Strip, Plate, and Rolled Bar

CFR Section(s):

46 CFR 58.50-5(a)(4)

Standards Body:

American Society for Testing and Materials

Official Incorporator: THE EXECUTIVE DIRECTOR

OFFICE OF THE FEDERAL REGISTER WASHINGTON, D.C.

~~

Designation: B 152 - 97a

Used in USDOE-NE sIaldards

Standard Specification for

Copper Sheet, Strip, Plate, and Rolled Bar1 This standard is issued under the fixed designation B 152; the number immediately following the designation indicates the year of original adoption or, in the case of revision, the year oflast revision. A number in parentheses indicates the year oflast reapproval. A superscript epsilon (.) indicates an editorial change since the last revision or reapproval. This standard Jws been approved for use by agencies of the Department of Defense. Consult the DoD Index of Specifications and Standards for the specific year of issue which Jws been adopted by the Department ofDefense.

1. Scope* 1.1 This specification2 establishes the requirements for

NOTE 2-This specification is not intended to cover material rolled to ounce-weight thicknesses. Such material is covered by Specification

copper sheet, strip, plate, and rolled bar. Each of the coppers listed as follows has a unique property, making it suitable for specific applications. The purchaser in consultation with the supplier shall choose and specify the copper best suited to his application. In the case where the copper is for general, rather than specific application, and the purchaser does not specify which copper is wanted, one of the coppers listed which is readily available shall be supplied. Copper UNSNo.3

Previous DesignationA

CIOlOO CI0200 B

OFE OF

CI0300 CI04OO, ClO500, CI0700 CI0800

OF'S

Cl1000 B

ETP

CII300, Cll400, Cll600 B Cl2000

STP

DLP

Cl2200 B

DHP

C12300 C14200 CI4420 C14530

DPS DPA

B370. Plates for locomotive fireboxes are covered by Specification B 11. Flat copper products with finished (rolled or drawn) edges (flat wire and strip) are also covered by Specification B 272. NOTE 3-A complete metric companion to Specification B 152 has been developed-B 152M; therefore, no metric equivalents are presented in this specification.

2. Referenced Documents

2.1 ASTM Standards: 2.1.1 The following documents of the issue in effect on date of material purchase form a part of this specification to the extent referenced herein: B 11 Specification for Copper Plates for Locomotive

Type of Copper Oxygen·free electronic Oxygen·free without residual deoxidants Oxygen·free extra low phosphorus Oxygen-free, silver bearing Oxygen-free low phosphorus Electrolytic tough pitch Silver bearing tough pitch Phosphorized, low residual phosphorus Phosphorized, high residual phosphorus Phosphorized, silver bearing Phosphorus deoxidized, arsenical Tin bearing tellurium copper Tin tellurium bearing copper

Frreboxes4 B 193 Test Method for Resistivity of Electrical Conductor Materials5 B 224 Classification of COppers6 B 248 Specification for General Requirements for . Wrought Copper and Copper-Alloy Plate, Sheet, Strip, and Rolled JJar6 B 272 Specification for Flat Copper Products with Finished (Rolled or Drawn) Edges (Flat Wire and Strip)6 B 370 Specification for Copper Sheet and Strip for Building Construction6 B 571 Test Methods for Hydrogen Embrittlement of Copper> B 601 Practice for Temper Designations for Copper and Copper Alloys-Wrought and Cast6 E 8 Test Methods for Tension Testing of Metallic Materials7 E 527 Practice for Numbering Metals and Alloys (UNS)8

A Except Copper UNS No. C lO300 (oxygen-free extra low phosphorus) and No. C 10800 (oxygen-free low phosphorus) these types of copper are classified in C1assification B 224. B SAE Specification CAlOl conforms to Copper UNS No. CIOlOO; SAE Specification CAI02 conforms to the requirements for Copper UNS No. ClO200; SAE Specification CAl IO conforms to the requirements for Copper UNS No. CllOOO; SAE Specifications CAl 13, CAl 14, and CAI16 conform to the requirements for Copper UNS Nos. Cll300, Cl1400, and Cl1600; SAE Specification CAI20 conforms to Copper UNS No. Cl2000; and SAE Specification CAI22 conforms to the requirements for Copper UNS No. Cl2200.

3. Terminology

NOTE I-Copper UNS Nos. CI04OO, C10500, C10700, CI1300,

Cll400, and Cll600 identify coppers with specific silver content (see

3.1 Definition o/Term Specific to This Standard· 3.1.1 capable of-the test need not be performed by the

Table 1).

producer of the material. However, should subsequent testing by the purchaser establish that the material does not meet these requirements the material shall be subject to rejection.

specification is under the jurisdiction of ASTM Committee B-5 on Copper and Copper Alloys and is the direct responsibility ofSuhcommittee B05.01 on Plate, Sheet, and Strip. Current edition approved Sept. lO, 1997. Published March 1998. Originally published as B 152 - 42 T. Last previous edition B 152 - 97. 2 For ASME Boiler and Pressure Vessel Code applications see related Specification SB-152 in Section 11 of that Code. 3 The UNS system for copper and copper alloys (see Practice E 527) is a simple expansion of the former standard designation system accomplished by the addition of a prefix "C" and a suffix "00." The suffix can be used to accommodate composition variations of the base alloy. 1 Thic

Discontinued-see 1980 Annual Book ofASTM Standards, Part 6. Vol 02.03. 6 A1I1IUJJi Book ofASTM Standards, Vol 02.01. 7 Annual Book ofASTM Standards, Vol 03.01. 8 AnnuaJ Book ofASTM Standards, Vol 01.01. 4

S AnnuaJ Book ofASTM Standards,

* A Summary of ChaDges section appears at the end of this specification. 255

4/illt

B 152

4. Ordering Information 4.1 Orders for material under this specification shall include the following: 4.1.1 Quantity, 4.1.2 Copper UNS No. (Section 1). When Alloys CI0400, C10500, C10700, CI1300, CII400, CI1600, or CI2300, the amount of silver in ounces per ton, 4.1.3 Temper (Section 7), 4.1.4 Dimensions: thickness, width, and weight (Section 14), 4.1.5 How furnished (straight lengths 01' coils), 4.1.6 Length (Section 14), .. 4.1.7 Weight of coils: coil weights or coil size limitations, if required, . 4.1.8 Type of e9ge, if required; slit, sheared, sawed, sqUare edges, rounded comers, rounded edges, or full-rounded edges (see 14.1.6), 4.1.9 Whether the resistivity test is required for either CopperUNS Nos. ClOl00, C10200, C10300, CllOOO, or C12000 (Section 13), 4.1.10 Embrittlement test (Section 12), 4.1.11 ASTM specification number. 4.2 The following requirements shall be specified if applicable: 4.2.1 Certification, if required (Section 15), 4.2.2 Mill test report, if required (Section 16), 4.2.3 Resistivity test for Copper UNS Nos. ClOlOO, CI0200, C10300, Cll000, or C12000 (Section 13), 4.2.4 Embrittlement test for ClOl00, C10200, C10300, Cl1000, C12000 (Section 12), 4.2.5 Type of edge, if other than slit, 4.2.6 Supplemental requirements for agencies of the U.S. Government as given in Specification B 248.

7.1.1 Special or nonstandard tempers are subject to negotiation between manufacturer and purchaser (see 4.1.3).

7.2 As Hot-Rolled Temper (M20): 7.2.1 The temper of hot-rolled copper sheet and plate shall.be that produced by hot rolling. 7.2.1.1 Plate not specified for Boiler and Pressure Vessel Code . Applications are generally available in the M20 temper. " 7.3 Annealed Temper (0): 7.3.1 The temper of hot-rolled and annealed copper Sheet and plate Shall be that produced by hot rolling and subsequent annealing (025). 7.3.1.1 Plates specified for Boiler and Pressure ,Vessel Code applications shall be furnished in the 025 temper. 7.3.2 The standard temperS of Cold-rolled annealed copper Sheet, strip, and plate are deSignated as follows: 060, soft anneal and 068, deep drawing anneal. ' NQTE 4-Soft-anneal temper is suitable for most industrial users of copper such as forming, spinning, and simple drawing operations where close control of temper is not essential. Deep-dnlwing anneal temper is eSpecially suited for very severe drawing and forming operations where maximum dUctility and Close control of temper is required.

8. Mechanical Requirements of Cold-Worked and OotRolled Tempers 8.1 The tension test shall be the standard test for all tempers of cold-rolled, hot-rolled, and hot-rolled and annealed cOpper sheet, strip, plate, and rolled bar, and acceptance or rejection shall depend only on the tensile properties, which shall conform to the requirements prescribed in 8.3 and Table 2. 8.2 Test specimens Shall be taken to conform, where applicable, to Section 6 of Test Methods E 8. Tension test specimens shall be taken so that the longitudinal axis of such specimens is parallel to the direction of rolling. Plate ite:m test-five specimens shall be taken either from the excess portion of the plate or from separate pieces produced under the same specification and temper. 8.3 'Hot-rolled.' and hot-rolled and . amiealed plates of Copper UNS' Nos. Cll000 and C12200 shall have 40 % Iilinimum elongation in 2 in., and hot-tolled and hot~rolled and annealed plaresofCopper UNS No; C14200 Shall have 45. % ininmnpneiongation in 2 m. '

5. General Requireme~ts 5.1 Material furnished under this specification shall confOIm to the applicable requirements of the clirtent edition of Specification B 248. 6. Chemical Composition 6.1 The materials shall oonform to the chemical requirements prescribed in Table 1. 6.2 Iflimits for unnanied elements are reqUired, they shall be established and analysis required by agreement between manufacturer or supplier and purchaser.

9. Grain Size Requirements of Cold-Rolled Annealed Tempers 9.1 Grain size shall be the standard test for cold-rolled annealed copper Sheet and 'strip, and acceptance or rejection shall depend only on the grain size. The average grain size of each of two samples of annealed material, as determined on a plane parallel to the surface of the sheet or strip, shall be within the limits prescribed m Table 3.

7. Temper

7.1 Rolled Material (H)--'-The standard tempers of coldrolled sheet, strip, plate, and rolled bar copper of all types are designated as follows (see Practice' B' 601): Temper DeSignatioh

Standatd

Fonner

HOO

Eight-bani, Quarter-bani, Half-hanI,A Three-quarter-hard, A

HOI

H02 H03 H04 H06 H08 HIO

Hard,A Extra-hard,A

Spring, A and Extra-spriugA

A Consult suppliers to determine the availability of sheet, plate, and rolled bar in these tempers.

10. Rocbvell Hardness 10.1 Rockwell hardness tests offer a quick and Convenient :meilio
TABLE 1

Chemical Requirements Composition, It

EJement

C10100 Copper (ro

99.99 E

silver), min Phosphorus

6

Lead, max Arsenic

I C10200A I C10300 I C10400B I C10500B I C10700B I C10800 I 99.95 F

99.95 ,

tv

Ut

--l

teUuriun, max Nickel,max Bismuth, max Telltrium

99.95

99.95

0.0010.005

99.95 F

I

99.90

I

99.90

99.90

I C11600 c 99.90

0.0050.012

1 C12000

I

C12200

I C12300D I

C14200 1 C14420 1 C14530

99.90

99.9

99.90

99.4

0.0040.012

0.0150.040

0.0150.040

0.0150.040

199.90

199.90

I...

10 .001 -

0.010

'6 6

0.150.50

8

Silver, min .

Antimony, max Selenitn +

99.95

Copper lHi No. C11000 C11300 c C11400 c

H

,

10 H

25 H

8

H

10H

"

25 H

'4 H

6 6

... a a

0.05

...

0.023

U'I

I\)

O.lM-

0.15

0.0030.023 0.0030.023

A Oxygen in C10200 shaIJ be 10 ppm max. . B Copper ~S Nos. C10400, C10500, and C10700 are produced from oxygen-free Copper lHi No. C10200 wiIh 1he addition of a specified 8IIIOlIrIt of siIver'. c Copper ~S Nos. C11300, C11400, and C11600 are produced either from Lake Copper or by 1he addiIion of silver' to electrolytic tough-pitch Copper lHi No. C11000. D Copper ~S No. C12300 is produced by 1he addition of siIveI" to phosphorus-deoxKized copper. . E This value is exclusive of silver and shaD be determined by difference of "impurity total" from 100 It. "Impurity total" is defined as 1he sum of lUhD", silver, lead, m, bismuth, arsenic, i:IrI1imony, mn, DckeI, zn:, phosphorus, selenium, tellIIium, manganese, cadmium, and oxygen present in 1he sample. F Copper + silver + phosphorus, min. a ImplIity maximums for C1 01 00 in ppm shaD be: antimony 4, ,arsenic 5, bismuth 1, cam1iLm 1, mn 10, lead 5, manganese 0.5, nckel10, oxygen 5, phosphorus 3, selenium 3, silver' 25, lUhD" 15, II!IIftJm 2, tin 2. H

OJ ~

--- .

0.0050.05

Tin

and zinc 1.

--

f5P

.

Values are in troy ~ per avoWdupois ton (1 ozfton is eqI.ivaIentto 0.0034 It).

L~_ _~_~_ _ _~_ _~_

41 TABLE 2

8152

Tensile S1rengIh Requirements and Approximate Hardness Values for the Tempers Given (see 8.3)

Fonner

Standard

CokI-Roied TemPers: Eighth hard Quarter hard Half hard

HOO H01 H02 H03 H04 H06 HOB H10 M20D

~ 30T

F Scale

Max

32

40

54-82

Lp to 49

34

42 46

60-84

18-51

77-89

43-57 47-59

41 43 47 50 52

Hard Extra hard Spring Extra spring Hot-Roled Tempers: Hot-roled Hot-roled and ameaIed

I-Iarmess

Mi'l

:rT

Three-quarter-hard

025 E

Approxima1e RockweI

Tensile S1rength, ksjA

Temper Designation

30 0 30 0

50 52 56

82-91

92 and over

54-62 56-64 60-66 61 and over

up to 75 up to 65

Lpto41 Lpto31

86-93 88-95 91-97

58

38 38

ksi = 1000 psi. Rockwell values apply as foIows: The F scale appies to metal 0.020 in. and over in tnckness. The ~ 3O-T scale applies to metal 0.012 in. and over in thickness. o When material is specified to meet the requirements of ASME Boiler and Pressure Vessel Code, the rOOinun yield strength at 0.5 % extension mder load or at 0.2 % offset shaI be 10 ksi. o See Section 7.2.1.1. ESee Section 7.3.1.1. A

B

TABLE 3 Grain Size Requirements and Approximate Rockwell Hardness Values for Cold-Rolled AnIH!8lecl Tempers Temper Designation

Fonner

060 05025

Gr.R1 Size, mm Min

Softameal

A

Deep-drawing anneal

A

Condition Soft (annealed)-CIOloo Cold rolled tempers--CI0loo Soft (annealed)-CI0200, CII000 Cold roIIed tempers--CI0200, CllOOO

Approxmate Rockwel HardnessB

Max

F Scale

0.050

Lpto65 30-75

A AIthoIqI no minimum grain size is reqLUed, this material must be fully recrystalized. B Rockwel hardness values apply as follows: The F scale appies to metal 0.020 in. and over in tnckness.

11. Microscopical Examination 11.1 Samples of Copper UNS Nos. C10100, C10200, C10300, CI0400, C10500, clo100, and C12000 shall be free of cuprous oxide as determined by Procedure A of Test Methods B 577. In case of a dispute, a referee method in accordance with Procedure C of Test Methods B 577 shall be

12. Embrittlement Test 12.1 Samples of Copper UNS Nos. CI0l00, C10200, C10300, CI0400, C10500, C10700, C10800, CI2000, CI2200, and C12300 shall be capable of passing the embrittlement test of Procedure B of Test Methods B 577. The actual performance of this testis not mandatory under the terms of this specification unless· defini:rely specified in the ordering information. In case of a dispute, a referee method in accordance with Procedure Cshall be employed. 13. Electrical Resistivity 13.1 When specified in the order, the electrical resistivity determined on samples of Copper UNS Nos. CI0l00, C10200, and CIlO00 shall not exceed the following limits when tested at a temperature of 20 C: D

0.15176 0.15614 0.15328 0.15775

13.2 When specified in the order, the electrical resistivity determined on samples of Copper UNS No. C12000 shall not exceed the following limits when tested at a temperature of20·C: Temper Annealed tempers Rolled or Drawil tempers

Electrical Resistivity, max, fl·gJm2

0.17031 0.17418

NOTE 5-The International Annealed Copper Standanl electrical conductivity equivalents are as follows: Electrical Resistivity, fl·gJm2

0.15176 0.15328 0.15614 0.15775 0.17031 0.17418

used.

11.2 When Copper UNS Nos. C10800, CI2200, or C12300 are supplied, microscopical examination for cuprous oxide is not required.

Electrical Resistivity, max, fl'gJrnZ

Conductivity,

% 101.00 100.00 98.16 97.16 90 88

13.3 Copper UNS Nos. C10300, CI4420, and C14530 when specified at the time of purchase for electrical conductor use, shall meet resistivity requirements as agreed upon between the manufacturer or supplier and the purchaser. 13.4 The electrical resistivity of the material shall be determined in accordance with Test Method B 193.

14. Dim,ensions, MaSs, and Permissible Variations 14.1 The dimensiohs and tolerances for material covered by this specification ~ be as prescribed in the current edition of Specification B 248, with particular reference to Section 5 and the following tables of that specification: 14.1.1 Thickness-See 5.2, Table 1. 14.1.2 Width: 14.1.2.1 Slit Metal and Slit Metal with Rolled Edges-See 5.3, Table 4. 258

41 B 152 14.1.2.2 Square-Sheared Metal-See 5.3, Table 5. 14.1.2.3 Sawed Metal-See 5.3, Table 6. 14.1.3 Length: 14.1.3.1 Specific and Stock Lengths With and Without Ends-See 5.4, Table 7. 14.1.3.2 Schedule of Lengths (Specific and Stock) With Ends-See 5.4, Table 8. 14.1.3.3 Length Tolerances for Square~Sheared MetalSee 5.4, Table 9.

14.1.3.4 Length Tolerances for Sawed Metal-See 5.4, Table 10.

14.1.4 Straightness: 14.1.4.1 Slit Metal and Slit Metal Either Straightened or Edge-Rolled-See Section 5.5, Table 11. 14.1.4.2 Square-Sheared Metal-See 5.5, Table 12. 14.1.4.3 Sawed Metal-See 5.5, Table 13. 14.1.5 Weight: Hot-Rolled Sheet and Plate-See 5.7, Table 18.

14.1.6 Edges-See 5.6. 14.1.6.1 Square Edges-See 5.6.1, Table 14.

14.1.6.2 Rounded Comers-See 5.6.2, Table 15. 14.1.6.3 Rounded Edges-See 5.6.3, Table 16. 14.1.6.4 Full-Rounded Edges-See 5.6.4, Table 17. 15. Certification 15.1 When specified on the purchase order, the manufacturer shall furnish to the purchaser a certificate stating that each lot has been sampled, tested, and inspected in accordance with this specification and has met the requirements. 15.2 When material is specified to meet the requirements of ASME Boiler and Pressure Vessel Code, the certification requirements are mandatory. 16. Mill Test Report 16.1 When specified on the purchase order, the manufacturer shall furnish to the purchaser a test report showing results of tests required by the specification.

17. Keywords 17.1 copper bars, rolled; copper plate; copper sheet; copper strip

SUMMARY OF CHANGES follows: (1) Deleted mercury in Footnotes E and G in Table 1.

This section identifies the principal changes to this specification that have been incorporated since the 1997 issue as

The AmerIcan Society for Testing and Materials lakes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this standard. Users of this standard are expressly advised that detenninalion of the validity of any such patent rights, and the risk of infringement of such rights, are entirely their own responsibility. This standard is subject to revision at any time by the responsible technical committee and must be reviewed evety five yeatS and if not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM Headquarten;. Your comments will receive careful consideration at a meeting of the responsible technical committee, which you may attend. "you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards, 100 Barr Harbor Drive, west Conshohocken, PA 19428.

259

Designation: B 152M - 97a ME1RIC

Standard Specification for

Copper Sheet, Strip, Plate,c'and Rolled Bar [Metric]1 This standaIdis issued under the fixed designation B 152M; the number immediately foHowiDg the designation indicates the year of original adoption or, in the C35e of revision, the year oflast revision. A number in parentheses indicates the year oflast reapprovaL A superscript epsilon (.) indicates ~editorial change since the last revision or reapprovaL

,This standtud has been approved for USe by agencies of the lJepartmenJ of Mense. Consult the DoD Index of 8pedjicatjons and Standards for the specific year of issue which has been atfopted by the Department ofMense. '

1. Scope* 1.1 This specification2 establishes the requirements for copper Sheet, strip, plate, and rolled bar. Each of the coppers Iisted'as folloWs has a unique property, making it suitable for specific applications. The pUrchaser in consultation with the supplier shall ch()C)se and specify the copper best suited to his application. In the case where t;4e copper is for general, rather than specific application, and the purchaser does not specify which copper is wanted, one of the coppers listed which is readily available shall be supplied. Copper UNSNo.3

Previous DesignationA

ClOlOO ClO200 B CI0300 CI04OO, ClO500, CI0700 ClO800

OFE OF

CllOOOB

ETP

Cll300, Cll400, Cll600 B CI2000 CI2200 B C12300 C14200 CI4420 C14530

STP

OFS

DLP DHP DPS DPA

Type of Copper Oxygen-free electronic Oxygen-free without residual deoxidants Oxygen-free, extra low phosphorus Oxygen-free, silver bearing Oxygen-free, low phosphorus Electrolytic tough pitch ' Silver bearing tough pitch PhOSphorized; low residual phosphorus Phosphorized, high residual phosphorus PhosphoriZed, silver bearing PhoSphorus deOxidized, arsenical Tm bearing teHUriiun copper Tin teHUrium bearing copper

A Except Copper UNS No. CI0300 (oxygen-free extra low phosphorus) and No. CI0800 (oxygen-free low phosphorus) these types of copper are classified in Classification B 224. B SAE Specification CAlOl conforms to Copper UNS No. CIOlOO; SAE Specification CAI02 conforms to the requirements for Copper UNS No. ClO200; SAE Specification CAllO conforms to the requirements for Copper UNS No. CllOOO; SAE Specifications CAll3, CAll4, and CA1l6 conform to the requirements for Copper UNS Nos. Cll300, Cll400, and Cll6OO; SAE Specification CAI20 conforms to Copper UNS No. C12000; and SAE Specification CAI22 conforms to tile requirements for Copper UNS No. CI2200.

NOTE l-Copper UNS Nos. CI0400, C10500, C10700, Cll300, Cll400, and Cll600 identify coppers with specific silver content (see Table 1).

1 This specification is under the jUrisdiction of ASTM Committee B-5 on Copper and Copper Alloys and is the direct responsibility of Subcommittee B05.01 on Plate, Sheet, and Strip. Current edition approved Sept. 10, 1997. Published March 1998. OriginaHy published as B 152M - 83. Last previous edition B 152M - 97. 2 For ASTM Boiler and Pressure Vessel Code applications, see related Specification SB-152 in Section II of that Code. 3 The UNS system for copper and copper aHoys (see Practice E 527) is a sintple expansion of the former standard designation system accomplished by the addition of a prefix "C" and a suffix "00." The suffix can be used to accommodate composition variations of the base aHoy.

NOTE 2-This specification is not intended to cover material rolled to OUDCtHvCighfthicknesses,; Such rDateriaI is covered by Specification B370.' Plates for locomotive fireboxes are cov~ by Specification B 11. f1at copper products with finished (rolled, or drawn) edges (flat wire and strip) are also Covered by SPtnfication B272. NOTE 3-This speCification is the metric companion to Specification B 152.

2. Referenced Documents

2.1 ASTM Standards: 2.1.1 The following documents of the issue in effect on date of material purchase form a part of this specification to the extent referenced herein: B 11 Specification for Copper Plates for Locomotive Frreboxes4 B 193 Test Method for Resistivity of Electrical Conductor MaterialsS B 224 Classification of Coppers6 B 248M Specification for General .Requirements for Wrought Copper and Copper-Alloy Plate, Sheet, Strip, and Rolled Bar [MetriC]6 B 272 Specification for Flat. Copper Prooucts with Finished (Rolled or DraWll)EdgeS (Flat Wite'and Strip)6 B 370 Specification for Copper Sheet and Strip for Building Construction6 B 577 Test Methods for Hydrogen Embrittlement of Copper; B 601 Practice for Temper Designations for Copper and Copper Alloys-Wrought and Cast6 E 8 Test Methods for Tension Testing of Metallic Materials7 E 527 Practice for Numbering Metals and Alloys (UNS)8 3. Terminology 3.1 Definition of Term Specific to This Standard: 3.1.1 capable of-the test need not be performed by the producer of the material. However, should subsequent testing by the purchaser establish that the material does not meet these requirements the material shall be subject to rejection. .. Discontinued-see 1980 AnnUill Book ofASIM Standards, Part 6.

Annuoi Book ofASIM Standards, Annuoi Book ofASTM Standards, 7 A1IlItlIll Book ofASIM Standards, 8 Annuoi Book ofASTM Standards, S

6

* A Summary of Changes section appears at the end of this specificatioo. 260

Vol 02.03. Vol 02.01. Vol 03.01. VolOl.Ol.

4mtt

B 152M

4. Ordering Information 4.1 Orders for material under this specification shall include the following: 4.1.1 Quantity, 4.1.2 Copper UNS No. (Section 1). When Alloys C10400, C10500, C10700, Cl1300, Cl1400, Cl1600, or C12300, the amount of silver in ounces per ton, 4.1.3 Temper (Section 7), 4.1.4 Dimensions: thickness, width, and weight (Section 14), 4.1.5 How furnished (straight lengths or coils), 4.1.6 Length (Section 14), 4.1. 7 Weight of coils: coil weights or coil size limitations, if required, 4.1.8 ASTM specification number. 4.2 The following requirements shall be specified if applicable: 4.2.1 Certification, if required (Section 15), 4.2.2 Mill test report, if required (Section 16), 4.2.3 Resistivity test for copper UNS Nos. C10100, C10200, C10300, C11000, or C12000 (Section 13), 4.2.4 Embrittlement test for C10100, C10200, C10300, C11000, C12000 (Section 12), . 4.2.5 Type of edge, if other than slit, 4.2.6 Supplemental requirements for agencies of the U.S. Government as given in Specification B 248.

5. General Requirements 5.1 Material furnished under this specification shall conform to the applicable requirements of the current edition of Specification B 248M.

6. Chemical Composition 6.1 The materials shall conform to the compositions prescribed in Table 1. 6.2 Iflimits for unnamed elements are required, they shall be established and analysis required by agreement between manufacturer or supplier and purchaser.

Code Applications is generally available in the M20 temper.

7.3 Annealed Temper (0): 7.3.1 The temper of hot-rolled and annealed copper sheet and plate shall be that produced by hot rolling and subsequent annealing (025). 7.3.1.1 Plates specified for Boiler and Pressure Vessel Code applications shall be furnished in the 025 temper. 7.3.2 The standard tempers of cold-rolled annealed copper sheet, strip, and plate are designated as follows: 060, soft anneal and 068, deep drawing anneal. NOTE 4-Soft-anneal temper is suitable for most industrial users of copper such as forming, spinning, and simple drawing operations where close control of temper is not essential. Deep-drawing anneal temper is especially suited for very severe drawing and forming operations where maximum ductility and close control of temper is required.

8. Mechanical Properties of Cold-Worked and Hot-Rolled Tempers 8.1 The tension test shall be the standard test for all tempers of cold-rolled, hot-rolled, and hot-rolled and annealed copper sheet, strip, plate, and rolled bar, and acceptance or rejection shall depend only on the tensile properties, which shall conform to the requirements prescribed in 8.3 and Table 2. 8.2 Test specimens shall be taken to conform, where applicable, to Section 6, of Test Methods E 8. Tension test specimens shall be taken so that the longitudinal axis of such specimens is parallel to the direction of rolling. Plate item test-five specimens shall be taken either from the excess portion of the plate or from separate pieces produced under the same specification and temper. 8.3 Hot-rolled plates of Copper UNS Nos. C11000 and C12200 shall have 40 % minimum elongation in 50 mm, and hot-rolled plates of Copper UNS No. C14200 shall have 45 % minimum elongation in 50 mm. 9. Grain Size Requirements of Cold-Rolled Annealed Tem-

pers 9.1 Grain size shall be the standard test for cold-rolled annealed copper sheet and strip, and acceptance or rejection shall depend only on the grain size. The average grain size of each of two samples of annealed material, as determined on a plane parallel to the surface of the sheet or strip, shall be within the limits prescribed in Table 3.

7. Temper

7.1 Rolled Material (H)-The standard tempers of coldrolled sheet, strip, plate, and rolled bar copper of all types are designated as follows (see Practice B 601): Temper Designation

Standard

HOO HOI H02 H03 H04 H06 H08 HIO

Former

10. Rockwell Hardness

Eighth·hard, Quarter-hard, Half-hard,A 'fbn:e.quarter-hard, A

10.1 Rockwell hardness tests offer a quick and convenient method of checking copper of any temper for general conformity to the requirements for tensile strength of grain size. The approximate Rockwell hardness values for each temper are given in Table 2 or Table 3 for general information and assistance in testing.

Hard,A Extrn-hard, A Spring,A and Extra-springA

11. Microscopical Examination 11.1 Samples of Copper UNS Nos. C10100, C10200, C10300, ClO400, C10500, C10700, and C12000 shall be free of cuprous oxide as determined by Procedure A of Test Methods B 577. In case of a dispute, a referee method in accordance with Procedure C of Test Methods B 577 shall be used. 11.2 When Copper UNS Nos. C10800, .C12200, or

A Consult SUpplieIS to determine the availability of sheet, plate, and rolled bar in these tempers.

7.1.1 Special or nonstandard tempers are subject to negotiation between manufacturer and purchaser (see 4.1.3). 7.2 Hot-Rolled Temper (M20): 7.2.1 The temper of hot-rolled copper sheet and plate shall be that produced by hot rolling. 7.2.1.1 Plate not specified for Boiler and Pressure Vessel 261

TABLE 1

Chemical Requirements Composition. ,;

Element. Copper fro silver). min

I Cl0l00 99.99 E

Phosphorus

0

lead. max Arsenic

0 0

Siver. mn Antmony.

10

Copper lI\IS No.

C10200A

I

99.95

I 99.95F

C10300

0.0010.005

I C10400B I C10500B I C10700B I

Cl0800

I

C11000

D

I

C14530

99.95

99.95

99.95 F

99.90

99.90

99.90

99.90

99.90

99.90

99.90

99.4

99.90

99.90

...

. ..

. ..

0.0050.012

...

...

. ..

. ..

0.0040.012

0.015·0.040

0.0150.040

0.0150:,040

. ..

0~001-

8H

110 H

I25 H

I. ..

I. ..

max tv 0\ tv

I C11300c I C11400 c I C11600c I Cl2000 I C12200 I C12300 I C14200 I C14420

99.95

Selenium + I 0 tebium

I

8H

110 H

I25 H

I··· I···. ...

..

I·~·H

. 0.010

0.150.50

I···... I···

O.OS

10.023

m

max Nickel•. max

Bismuth.

max Telk.rium

--

~ ..a.

10 10

0.005-

0.0030.023

0.04-'-

0.003-

.o.os

Tn

0.15

0.023

Oxygen in Cl0200shaI be 10 ppm max. B Copper lI\IS Nos. C10400.Cl0500. and Cl0700 are produced from OxygerHree Copper lI\IS No. C10200 with Ihe ackition of a specified amooot of siver. cCopper lJ\IS.Nos. Cll300; Cll400. and Cll600·are produced eilherfrom Lake Copper or bylhe adciIion of siver to electrolytic toIJ!tl-piIl:h Copper lJ\IS No. C11000. D Copper lJ\IS No. Cl2300 is produced by Ihe addition of siver to phosphorus-deoxKized copper. E This value is exclusive of siver and shaD be dEitennined by difference of "impuily total" from 1 00,;. "Impuily total" is defined as Ihe StDI of SIMu", siver. lead. tin. bisrooIh, antmony. DckeI, zinc, phosphorus. selenium. teIurium. manganese. cadmium. and oxygen present in Ihe Sample. F Copper + siver + phosphorus. min. o Impurity maximums for C10100 in ppm shall be: antimony 4. arsenic 5. bismuth 1. cadmium 1. 10,Iead 5. manganese 0.5, nickel 10, oxygen 5. phosphorus 3. seIenUn 3. siver 25, SIMu" 15.1eIUiIm 2. tin 2. and zinc 1. H Values are in troy ounces per avomupois ton (1 ozjton is equivalent to 0.0034 ,;). A

arsenc.

ron

ron.

~ i:

4t B 152M TABLE 2

Tensile S1rength Requirements and Approximate Hardness Values for the Tempers Given (see 8.3) Tensile Strength, MPa

Temper Designation

Approxmate RockweI HarmessA

min

max

Ei!jrth hard

220

275

54-82

Quarter hard Half hard

235

290

60-84

up to 49 18-51

255 285

315

n-89

43-57

TJvee.quarter hard

345

82-91

47-59

Hard

295

360

86-93

54-62

Extra hard Spring Extra spring

325 345

385

88--95

56-64

400

91-97 92 and over

60-66

Hot-ro/Ied Hot-ro/Ied and ameaIed

205 B 205 B

up to 75 up to 65

up to 41 up to 31

Fonner

Standard

F Scale

St4)eI'ficiaI 30T

CoId-Roied Tempers: HOO H01 H02 H03 H04 H06 HOB H10

360

61 Mdover

Hot-Ro/Ied Tempers:

M20 c 025 D

260 260

A Rockwell values apply as foIows: The F scale apples to metal 0.508 mm and over in thickness. The Superficial 30-T scale apples to metal 0.305 mm Md over in thickness. B When material is specified to meet the reqWernents of ASME Boiler and Pressure Vessel Code, the mininun yield strength at 0.5 % extension LDfer load or at 0.2 % offset shall be 70 MPa. . c See Section 7.2.1.1. D See Section 7.3.1.1.

TABLE 3 Grain Size Requirements and Approximate Rockwell Hardness Values for Cold-Rolled Annealed Tempers

Temper Annealed tempers Rolled or drawn tempers

Approxmate

Temper Designation

Grain Size, mm

Rockwell

Electrical Resistivity, max,n·gJm2 0.17031 0.17418

HarmessB

Standard

Former

Min

060

Soft anneal

A

08025

Deep.aawklg ameaI (0.025 mm)

A

Max

NOTE 5-The International Annealed Copper StandaId electrical conductivity equivalents are as follows:

F Scale Min

Max

Electrical Resistivity, n·gJm2 0.15176 0.15328 0.15614 0.15775 0.17031 0.17418

65 0.050

30

75

A AIIhough no mininun grain size is reqIired, ttis material must be Uy recrystalized. BRockwell har!h!ss values apply as foIows: The F scale appies to metal 0.5 mm and over in thickness.

12. Embrittlement Test 12.1 Samples of Copper UNS Nos. ClOl00, CI0200, C10300, C10400, ClO500, C10700, C10800, CI2000, CI2200, and C12300 shall be capable of passing the embrittlement test of Procedure B of Test Methods B 577. The actual performance of this test is not mandatory under the terms of this specification unless definitely specified in the ordering information. In case of a dispute, a referee method in accordance with Procedure C of Test Methods B 577 shall be used.

14. Dimensions, Mass, and Permissible Variations 14.1 The dimensions and tolerances for material covered by this specification shall be as prescribed in the current edition of Specification B 248M, with particular reference to Section 5 and the following tables of that specification: 14.1.1 Thickness-See 5.2, Table 1.

13. Electrical Resistivity 13.1 When specified in the order, the electrical resistivity determined on samples of Copper UNS Nos. C10100, C10200, and Cll000 shall not exceed the following limits when tested at a temperature of 20·C:

14.1.2 Width: 14.1.2.1 Slit Metal and Slit Metal with Rolled Edges-See 5.3, Table 4.

14.1.2.2 Square-Sheared Metal-See 5.3, Table 5. 14.1.2.3 Sawed-Metal-See 5.3, Table 6. 14.1.3 Length: 14.1.3.1 Specific and Stock Lengths With and Without Ends-See 5.4, Table 7. 14.1.3.2 Schedule of Lengths (Specific and Stock) With Ends-See 5.4, Table 8. 14.1.3.3 Length Tolerances for Square-Sheared Metal-

Electrical Resistivity, max, n·gJm2 0.15176 0.15614 0.15328 0.15775

13.2 When specified in the order, the electrical resistivity determined on samples of Copper UNS No. C12000 shall not exceed the following limits when tested at a temperature of20·C:

101.00 100.00 98.16 97.16 90.00 88.00

13.3 Copper UNS Nos. C10300, CI4420, and C14530 when specified at the time of purchase for electrical conductor use, shall meet resistivity requirements as agreed upon between the manufacturer or supplier and the purchaser. 13.4 The electrical resistivity of the material shall be determined in accordance with Test Method B 193.

C12300 are supplied, microscopical examination for cuprous oxide is not required.

Condition Soft (annealed)-CIOIOO Cold-rolled tempers-ClOlOO Soft (annealed)-C102oo, CIlOOO Cold-rolled tempers-CI0200, CllOoo

Conductivity, %

See 5.4, Table 9.

14.1.3.4 Length Tolerances for Sawed Metal-See 5.4, Table lO. 263

4~ 8152M 14.1.4 Straightness: 14.1.4.1 Slit Metal and Slit Metal Either Straightened or Edge-Ro(led~See

Section 5.5, Table 11.

14.1.4.2 Square-Sheared Metal-See 5.5, Table 12. 14.1.4.3 Sawed Metal-See 5.5, Table 13 .. 14.1.5 Weight: Hot-Rolled Sheet and Plate-See 5.7,

turer shall furnish to the purchaser· a certifiCate stating that each lot has been sampled, tested, and inspected in accordance with this specification and has met the requirements. 15.2 When material is specified to meet the requirements of ASME Boiler and Pressure Vessel Code, the certification requirements are mandatory.

Table 18.'

14.1.6.Edges-See 5.6 14.1.6.1 Square Edges-See 5.6.1, Table 14. 14.1.6.2 Rounded Comers-See 5.6.2, Table 15. 14.1.6.3 Rounded Edges-See 5.6.3, Table 16. 14.1.6.4 Full-Rounded Edges-See 5.6.5, Table 17. 15. Certification 15.1 When specified on the purchase order, the manufac-

16. Mill Test Report 16.1 When specified on the purchase order, the manufacturer shall furnish to the purchaser a test report showing results of tests required by the specification. 17. Keywords 17.1 copper bars, rolled; copper plate; copper sheet; copper strip

SUMMARY OF CHANGES This section identifies the principal changes to this specification that have been incorporated since the 1997 issue as (

follows: (1) Deleted mercury in Footnotes E and G in Table 1. .

.

,

The American Society for Testing and Materials takes no position respeciing the validity of any patent rights asserted in connection with any item mentioned in this standard. Users of this standard are expressly advised that determination of the validity of any such patent rights, and the risk of infringement of such rights, are entirely their own ·responsibility. This standard is subject to revisiOn at any time by the responsible technical committee and must be reviewed every five yealS and if not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM Headquarters. Your comments will reCeive careful consideration at a meeting of the reSponsible technical committee, which you may attend. If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards, 100 Barr Harbor Drive, West Conshohocken, PA 19428.

264