Design of base plate with moment and tension in excel format. User friendlyFull description
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Design of base plate as per IS800-2007. The spreadsheet is very helpful for fixed base plates.Full description
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BS 5950 DESIGN OF BASE PLATEFull description
REFERENCE
OUTPUT
CA L CUL A TIONS BASE PLATE AND BOLT DESIGN REACTION FORCES Critical Force & Moment for Trains 1 & 2
SACS Output Files
JOINT 1C
LC
FX [k [kN]
FY [k [kN]
FZ [k [kN]
2041
509.755
3.451
54.074
Moment,MX [kNm] Moment, MY [kNm] Moment, ent, MZ [kNm] -1.681
55.565
-0.64
Maximum reaction forces of 168.28 x 12.5 mm thick pipe is: SACS Output Files
FZ = P = Axial Load = 54.074 kN = 12.16 kips FX = 509.755 kN = 114.59 kips
12.1 12.16 6 kips kips 114.59 114.59 kips kips
Check Plate dimensions 340 mm x 377 mm Fy = 36 ksi
REFERENCE
36 ksi ksi
Allowable bearing stress, Fp = 0.7x (0.3Fy)
7.56 7.56 ksi ksi
Req'd. Plate Area, A1 = P/Fp = 12.16/7.56
1.61 in2
CA L CUL A TIONS
OUTPUT
Determination Determination of pl ate dimensions B and C;
d = depth of section (outer pipe diameter) = 168.28 = di =inner pipe diameter = 168.28 -(12.5*2)mm =143.275 mm critical section used to determine the plate thickness = 0.8d =134.6 mm
6.625 in 5.64 5.64 in
AISC Design of Column Base Plates, John T.De Wolf, pg 5,6
For checking thickness of plate, use the greater of m and n.
C=
14.80 14.80 in
B=
13.39 13.39 in
Actual Bearing Pressure, Fp = P/CB =12.16/14.8*13.39
0.06136 0.06136 ksi
Determine m and n from figure above; n=
2.23 2.23 in
m = 13.39 - (0.8 * 6.625)/2=
4.045 in
since m > n; Plate Thickness, tp = m√ Fp/0.25Fy = 4.75√0.061/0.25*36
0.39 0.39 in
Plate thickness of 0.39 in = 9.91 mm is required Provide 25 mm thick plate = 0.984 in
0.984 in
Plate 340 340 mm x 377 mm x 25 mm thic k is adequate
REFERENCE
CAL CUL ATIONS
OUTPUT
BOLTS Check for Shear Capacity Assume 4 No of A490X bolts, 25 mm dia = 1 in Total Shear Force at Node W = AISC 9th Ed Table 1- Shear per bolt = 114.59/4 = D Allowable Shear per bolt =
114.59 kips 28.65 kips 31.40 kips
28.65 k i p s < 31.40 k i p s Bo Bo l t Sh ear St r es s OK
Sh ear OK
Check Bearing Capacity AISC 9th Ed (Table 1-F, 1-E)
Edge distance, lv = 1 1/4 in use (45 mm) At f u = 65 ksi, coefficient is 78.0 kips/inch of thickness for 4 bolts. Allowable load = (78.0 x 4 bolts) x 0.984 = 307.00 kips (1365.6 kN) 307.00 k i p s (1365.60 k N) > 449.801 k N
1365 1365.60 .60 kN OK
Check for Bolt Tensile Capacity AISC Design of Column Base Plates, John T.De Wolf, pg 5,6
Bolt Tensile Capacity, Tu = 0.75φtFu Ag where φt is the tensile resistance factor, equal to 0.75 Fu = is the specified minimum tensile strength = 65 ksi 2
Ag is the gross area = 3.142*1 /4 = Tu = 0.75*0.75*65*0.79
0.79 in2 28.72 28.72 kips kips
AISC 9th Ed, Table Allowable Tensile Load for Grade A490X Bolt = 1-A 28.72 k s i < 54.00 k s i
54.00 ksi OK
AISC-ASD 9th Ed From interaction Equation Table J3.3 of AISC Specification Table J3.3 Ft = [(542- 1.82(f v)2]0.5 Table 1-D Table J3.3