ASTM B619 / ASME SB619 / Wedded Nickel and Nickel Cobalt Alloy Pipe Hastelloy B2 = UNS N10665 / Hastelloy C276 = UNS N10276 supplier & distributor in India
ASTM B-619 , ASME SB-619
SPECIFICATION FOR WELDED NICKEL AND NICKEL COBALT ALLOY PIPE HASTELLOY B-2 = UNS N10665 / HASTELLOY C-276 = UNS N10276
1.Scope
1.1 This specification covers welded pipe of nickel and nickel-cobalt alloys (UNS N1000; UNS N100665; UNS N12160; UNS N10629; UNS N10675; UNS N10276; UNS N06455; UNS N06007; UNS N06975; UNS N08320; UNS N06002; UNSN06022; UNS N06059; UNS N06985; UNS N06030; UNS R30556; UNS N08031; UNS N06230; UNS N06686; and UNS R20033), as shown in Table 1. 1.2 This specification covers pipe in Schedules 5S, 10S, 40S, and 80S through 8-in. nominal pipe size as set. forth in ANSI B36.19(see Table 2),
1.3 Two class of pipe are covered as follows; 1.3.1 Class ? ? As welded and solution annealed or weled and sized and solution allealed. 1.3.2 Class ? ? Welded, cold worked, and soluyiom annealed.
1.4 All pipe shall be furnished in the solution annealed and deacaled condition. When atmosphere contol is used, descaling is not necessary.
1.5 The values stated in inch-pound units ae to be regarded as the atandard. The values given in parentheses are for information only.
TABLE1 CHEMICAL REQUREMENTS
Composition Limits, %
Ni
Cr
Mo
Fe
W
C
Si, Max
Co
Mn
V
Ni-Mo Alloys N10001
Remainder [Note(1)]
1.0max
26.0-30.0
4.0-6.0
...
0.05 max
1.0
2.5 max
1.0 max
0.2-0.4
N10665
Remainder [Note(1)]
1.0max
26.0-30.0
2.0max
...
0.02 max
0.10
1.0 max
1.0 max
...
N10675
65.0min.
1.0-3.0
27.0-32.0
1.0-3.0
3.0 max
0.01 max
0.10
3.0 max
3.0 max
0.20max
N10629
Remainder [Note(1)]
0.5-1.5
26.0-30.0
1.0-6.0
...
0.01 max
0.05
2.5 max
1.5 max
...
Low C Ni-Mo-Cr Allys N10276
Remainder [Note(1)]
14.5-16.5
15.0-17.0
4.0-7.0
3.0 -4.5
0.010 max
0.08
2.5 max
1.0 max
0.35 max
N06022
Remainder [Note(1)]
20.0-22.5
12.5-14.5
2.0-6.0
2.5 -3.5
0.015 max
0.08
2.5 max
0.50 max
0.35 max
N06455
Remainder [Note(1)]
14.0-18.0
14.0-17.0
3.0max
...
0.015 max
0.08
2.0 max
1.0 max
...
Ni-Cr-Fe-Mo-Cu Alloys N06007
Remainder [Note(1)]
21.0-23.5
5.5 -7.5
18.0-21.0
1.0 max
0.05 max
1.0
2.5 max
1.0 -2.0
N06975
47.0-52.0
23.0-26.0
5.0 -7.0
Remainder [Note(1)]
...
0.03 max
1.0
...
1.0 max
N06985
Remainde r[Note(1)]
21.0-23.5
6.0 -8.0
18.0-21.0
1.5 max
0.015
1.0
5.0 max
1.0 max
...
N09030
Remainder [Note(1)]
28.0-31.5
4.0 -6.0
13.0-17.0
1.5 -4.0
0.03 max
0.8
5.0 max
1.5 max
...
Ni-Fe-Cr-Mo-Alloy N08320
25.0-27.0
21.0-23.0
4.0 -6.0
Remainder [Note(1)]
...
0.05 max
1.0
2.5 max
Ni-Cr-Mo-Fe Alloy N06002
Remainder [Note(1)]
20.5-23.0
8.0-10.0
17.0-20.0
0.20-1.0
0.05 -0.15
1.0
0.5 -2.5
1.0 max
Ni Fe-Cr-Cu AlloyR30556
19.0-22.5
21.0-23.0
2.5 -4.0
Remainder [Note(1)]
2.0-3.5
0.05 -0.15
0.20-0.80
16.0-21.0
0.50-2.00
...
Ni-Cr-W-Mo Alloy N06230
Remainder [Note(1)]
20.0-24.0
1.0 -3.0
3.0max
13.0-15.0
0.05 -0.15
0.25-0.75
5.0 max
0.301.00
...
Low C-Ni-Cr-Mo N06059
Balance
22.0-24.0
15.0-16.5
1.5max
...
0.010 max
0.10
0.3 max
0.5 max
...
Ni-Fe-Cr-Mo-Cu Low Carbon Alloy N08031
30.0-32.0
26.028.0
6.0 -7.0
Balance
...
0.015 max
0.3
...
2.0 max
...
Low C-Ni-Cr-Mo-W-Alloy N06686
Remainder [Note(1)]
19.0-23.0
15.0 -17.0
5.0max
3.0-4.4
0.010 max
0.08
...
0.75 max
...
Ni-Co-Cr-Si Alloy N12160
Remainder [Note(1)]
26.030.0
1.0 max
3.5max
1.0 max
0.15 max
2.4-3.0
27.0-33.0
1.5 max
...
Cr-Ni-Fe-N Low Carbon Alloy R20033
30.0-33.0
31.0-35.00
0.50-2.0
Balance
...
0.015max
0.50
...
2.0 max
...
Composition Limits, %
P, Max
S, Max
Ti
Cu
Cb(Nb)+Ta
Al
Zr
La
N
B
Cb(Nb)
Ta
Ni+Mo
Mg
Ni-Mo Alloys N10001
0.04
0.03
N10665
0.04
0.03
N10675
0.030
0.010
0.20 max
0.20 max
...
0.50 max
0.10 max
...
...
...
0.20 max
0..20 max
94.0-98.0
N10629
0.04
0.01
...
0.5 max
...
0.1 -0.5
...
...
...
...
...
...
0.1 max
Low C Ni-Mo-Cr Allys N10276
0.04
0.03
N06022
0.02
0.02
N06455
0.04
0.03
0.70 max
Ni-Cr-Fe-Mo-Cu Alloys N06007
0.04
0.03
1.5 -2.5
1.75 -2.5
N06975
0.03
0.03
0.70-1.50
0.70-1.20
N06985
0.04
0.03
...
1.5 -2.5
0.50 max
N09030
0.04
0.02
...
1.0 -2.4
0.30 -1.50
Ni-Fe-Cr-Mo-Alloy N08320
0.04
0.03
4×C min.
Ni-Cr-Mo-Fe Alloy N06002
0.04
0.03
...
Ni Fe-Cr-Cu AlloyR30556
0.04
0.015
...
...
...
0.10-0.50
0.001-0.10
0.005-0.10
0.10-0.30
0.02 max
0.30 max
0.3 -1.25
Ni-Cr-W-Mo Alloy N06230
0.03
0.015
...
...
...
0.20-0.50
...
0.005-0.050
...
0.015 max
...
...
Low C-Ni-Cr-Mo N06059
0.015
0.005
...
...
...
0.1-0.4
...
...
...
...
...
...
Ni-Fe-Cr-Mo-Cu Low Carbon Alloy N08031
0.020
0.010
...
1.0 -1.4
...
...
...
...
0.15-0.25
...
...
...
Low C-Ni-Cr-Mo-W-Alloy N06686
.004
0.02
0.02-0.25
...
...
...
...
...
...
...
...
...
Ni-Co-Cr-Si Alloy N12160
0.030
0.5
0.20-0.80
...
...
...
...
...
...
...
1.0max
...
...
Cr-Ni-Fe-N Low Carbon Alloy R20033
0.02
0.01
...
0.30-1.20
...
...
...
...
0.35-0.60
...
...
...
...
...
NOTE: (1) The composition of the remainder element shall be determined arithmetically by difference.
TABLE2 DIMENSIONS OF WELDED PIPE
Nominal Pipe Size,
Outside Diameter
Nominal Wall Thickness
Schedule55[Note(1)]
Schedule105[Note(10]
Schedule40S
Schedule80S
in.
in.
mm
in.
mm
in.
mm
in.
mm
in.
mm
1/8
0.405
10.29
...
...
0.049
1.24
0.068
1.73
1/4
0.510
13.75
...
...
0.065
1.65
0.088
2.24
3/8
0.675
17.15
...
...
0.065
1.65
0.091
2.31
1/2
0.840
21.35
0.065
1.65
0.083
2.11
0.109
2.77
3/4
1.050
26.67
0.065
1.65
0.083
2.11
0.13
2.87
1.0
1.315
33.41
0.065
1.65
0.109
2.77
0.133
3.38
1 1/4
1.660
42.16
0.065
1.65
0.109
2.77
0.140
3.56
1 1/2
1.900
48.26
0.065
1.65
0.109
2.77
0.145
3.68
2
2.375
60.03
0.065
1.65
0.109
2.77
0.154
3.91
0.218
5.54
2 1/2
2.875
73.03
0.083
2.11
0.120
3.05
0.203
5.16
0.276
7.01
3
3.500
88.90
0.083
2.11
0.120
3.05
0.216
5.33
3 1/2
4.00
101.60
0.083
2.11
0.120
3.05
0.226
5.74
4
4.500
114.30
0.083
2.11
0.120
3.05
0.237
6.02
5
5.563
141.30
0.109
2.77
0.134
3.40
0.258
6.55
6
6.625
168.28
0.109
2.77
0.134
3.40
0.280
7.11
8
8.625
219.18
0.109
2.77
0.148
3.76
0.322
8.18
GENERAL NOTES: (a) This Table is a parial reprint of Tavle 1 of ANSI B36.19. (b) The decimal thickness listed for the respective pipe sizes represents their nominal or average wall dimensions.
NOTE: (1) Schedules 55 and 10S wall thkcnesses do not permit theading in accodance with ANSI B2.1-960.
TABLE3 MECHANICAL PROPERTIES OF PIPE
Alloy
Tenils Strength, Min., ksi(MPa)
Yield Strength(0.2% Offset), Min.,ksi(MPa) or 4D
Elongation in 2 in.(50.8mm)[Note(1)]Min., %
Ni-Mo Alloys
Alloy N10001
100(690)
45(310)
40
Alloy N10665
110(760)
51(350)
40
Alloy N10675
110(760)
51(350)
40
Alloy N10629
110(760)
51(350)
40
Low C Ni-Mo-Cr Alloys
Alloy N10276
100(690)
41(283)
40
Alloy N03022
100(690)
45(310)
45
Alloy N06455
100(690)
40(276)
40
Ni-Cr-Fe-Mo-Cu Alloys
Alloy N06007
90(621)
35(241)
35
Alloy N06975
85(586)
32(221)
40
Alloy N06985
90(621)
35(241)
45
Alloy N06030
85(586)
35(241)
30
Ni-Fe-Cr-Mo Alloy(N08320)
75(517)
28(193)
35
Ni-C-Mo-Fe Alloy(N06002)
100(690)
40(276)
35
Ni-Fe-Cr-Co Alloy(R30556)
100(690)
45(310)
40
Ni-Cr-W-Mo Alloy(N06230)[Note(2)]
110(760)
45(310)
40
Low-C-Ni-Cr-Mo(N06059)
100(690)
45(310)
45
Ni-Fe-Cr-Mo-Cu Low Carbon Alloy(N08031)
94(650)
40(276)
40
Low C Ni-Cr-Mo-W Alloy(N06686)
100(690)
45(310)
45
Ni-Co-CroSi Alloy N12160
90(620)
35(240)
40
Cr-Ni-Fe-N Low Carbon Alloy(R20033)
109(750)
55(380)
40
NOTES: (1)Drefers to the diameter of the tension specimen. (2)Solution annealed at a temperature between 2,125 to 2,275?(1,163 to 1,1246?).
TABLE4 PERMISSIBLE VARIATION IN OUTSIDE DIAMETER
Nominal Pipe Size, in.
Permissible Variatiin in Outside Diameter[Note(1)]
in.
mm
1/8
+0.002
-0.006
+0.05
-0.15
1/4
+0.003
-0.008
+0.08
-0.20
3/8
+0.004
-0.008
+0.08
-0.20
1/2
+0.005
-0.010
+0.10
-0.25
3/4
+0.005
-0.012
+0.13
-0.30
1
+0.005
-0.012
+0.13
-0.30
1 1/4
+0.008
-0.012
+0.13
-0.30
1 1/2
+0.010
-0.015
+0.20
-0.38
2
+0.010
-0.016
+0.25
-0.41
2 1/2
+0.012
-0.016
+0.25
-0.41
3
+0.012
-0.018
+0.30
-0.46
3 1/2
+0.012
-0.018
+0.30
-0.46
4
+0.014
-0.020
+0.36
-0.51
5
+0.063
0.031
+1.60
-0.79
6
+0.063
0.031
+1.60
-0.79
8
+0.063
0.031
+1.60
-0.79
NOTE: (1) The permissible variations in the above Table apply to indibidual measurements, including out of roundness(ovality).
X1.1 Proper heat treatment during or subsequent to fabrication is necessary for optimum performance, and the manufacturer shall be consulted for details.