PROCHEMStainless Steel Specialists Product solutions for a world of difference
PIPING PRODUCTSPIPE AND TUBE
PIPING PRODUCTS
INSTRUMENTATION
VALVES AND ACTUATORS
MANUFACTURING
INDENT SERVICE
HYDRAULIC
25© PROCHEM PIPELINE PRODUCTS – MAY 2013
PROCHEM PIPING PRODUCTS PIPE AND TUBE
Pipe and Tube
SEAMLESS AND WELDED PIPE – Is available throughout Prochem in accordance with material specification ASTM A312 and dimensional specification ANSI/ASME B36.19M and ANSI/ASME B36.10M.
Comprehensive stocks of seamless and welded pipe includes 6 NB (1⁄8") to 600 NB (16") in SCH 10S and SCH 40S. Seamless pipe is also available ex-stock in heavier schedules such as SCH 80S, SCH 160 and XXS.
Larger sizes of both seamless and welded pipe are readily available through our worldwide network of suppliers. All pipe is fully traceable and available in 6 m lengths.
SEAMLESS TUBE – Prochem leads the field in the supply of high quality instrument tube which is stocked throughout Australia and South East Asia specifically for use with compression fittings. The tube is dual graded, 316/316L and dual specified A269/A213 to not only cover instrumentation applications, but boiler, superheater and heat exchanger applications as well. All tube in sizes 4.76 (3⁄16") to 25.40 mm (1") OD inclusive are dual specified, contain 2.5% minimum molybdenum to provide maximum corrosion protection and are produced to a maximum hardness of RB 80.
Sizes from 25.4 (1") to 50.8 mm (2") are supplied to ASTM A269 TP316. High quality seamless tube from Prochem is fully certifiable and available in standard 6 m lengths. Tube from 3.2 (1/8") to 12.7 mm (1/2") is available in coiled form with other sizes available on request.
Prochem also holds stock of Monel® 400, Duplex UNS S31803, 904L UNS N08904 and 6Mo UNS S31254 tube for applications where enhanced corrosion resistance is required.
WELDED TUBE – Prochem stock welded tube in a variety of finishes to suit market needs. These include “as welded”, “as welded polished”, “welded bright annealed”, “welded annealed polished”, and others on request. Our standard size range covers 12.7 (1⁄2") to 152.4 mm (6") OD in 1.6 mm WT (16 SWG) and 203.2 mm (8") OD in 2.00 mm WT (14 SWG).
Materials in stock include 304 and 316 stainless steel to ASTM A269, ASTM A554 and AS1528.1 with other grades, standards or sizes available on request.
HEAT EXCHANGER TUBE – Through our extensive network of overseas suppliers, Prochem offers a comprehensive selection of heat exchanger and condenser tubes in a range of stainless and special alloys.
Whether you require finned tube, u-tube or straight tube, please give us a call. We will be pleased to source your requirements.
Monel is a registered trademark.
26 © PROCHEM PIPELINE PRODUCTS – MAY 2013
COMMON PIPE AND TUBE TERMS USED IN THE AUSTRALIAN INDUSTRY
Tube: Tube is usually defined by an outside dimension “OD” and a wall thickness.
Section Tube: Section tubing is initially rolled and welded as round tube and then rolled or drawn to its new non-circular cross section. Typical forms are square, rectangular and oval. Many other forms are available. Section tubing is used extensively in architectural and structural applications.
Pipe: Pipe can be defined by nominal pipe size (NPS) under American standards classifications. Alternatively nominal bore (NB) may be specified under British standards classifications along with a schedule (wall thickness). In Australia these terms are usually mixed, with all stock being available to the American system, although enquiries are usually made under the British system, i.e. 50 NB schedule 40S pipe, rather than 50 NPS Pipe. It should also be noted there are dimensional differences between the American and the British systems. Under the American system size 65 pipe measures 73 mm OD and under the British system it measures 76.2 mm OD European and Japanese manufacturers may define the pipe by its actual outside diameter and wall thickness, in mm, rather than by nominal size and schedule.
AS WELDED (AW): Tubing produced directly off a continuous tube welding mill.
AS WELDED ANNEALED (AWA): Tubing produced in the same process as for ‘As-Welded’ but annealed as a final operation.
COLD WORKED (CW) AND COLD WORKED ANNEALED (CWA): Cold worked tubing is produced in the same process as for ‘As-Welded’ and then the weld area is subjected to a mechanical cold working process for removal of the weld bead to produce a smooth internal surface. An annealing process is then performed to produce cold worked annealed tube.
WELDED DRAWN (WD) AND WELDED DRAWN ANNEALED (WDA): Welded Drawn tube is produced under AWA or CWA conditions and then redrawn through sizing dies and mandrels to achieve close tolerances on outside diameter and wall thickness. An annealing process is then performed to produce welded drawn annealed tube.
ANNEALED: The tube is subjected to heat treatment by either an ‘oxygen enriched’ furnace or by bright annealing in a ‘oxygen deficient’ furnace.
POLISHING: Usually for tubing where the quality of the surface finish of the tubing is to be improved. This can be achieved by the use of an abrasive sanding belt or by electropolishing the tube surface. A variety of surface finishes are available e.g. hairline, buff or mirror. Either internal or extermal surfaces can be polished. External polishing is more common for decorative applications while internal polishing is usually used in analytical applications.
PICKLING: The material is immersed in an acid solution for the purpose of removing the oxide scale which is formed after annealing or heat treatment in an ‘oxygen enriched environment furnace’. A mixture of nitric and hydrofluoric acid in water is widely used. Where tenacious oxides are present, sulphuric acid can be used to soften the scale prior to dipping the material in the nitric/hydrofluoric acid bath.
PASSIVATING: The stainless steel is treated by immersion in a dilute solution of acid, which has the effect of eliminating many types of surface contamination which may cause discolouration or superficial corrosive attack in service. A solution of nitric acid in water is widely used. The removal of residues such as particles of steel from cutting tools from the surface permits the material to re-generate its invisible, protective oxide film as a continuous permanent covering.
Pipe and Tube
Information obtained from the Australian Stainless Steel Development Association.
PROCHEM PIPING PRODUCTS PIPE AND TUBE
27© PROCHEM PIPELINE PRODUCTS – MAY 2013
Manufacturing Methods
SEAMLESS MANUFACTURING PROCESSES
Hot Finished
Prior to extrusion, a short round billet is pierced or bored to form a hollow billet. The billet is then heated and a mandrel is pushed through. The mandrel is then concentrically positioned to a circular die. Elongation is carried out by squeezing the billet through the annular space formed by the die and the mandrel. Elongation of the material then takes place to attain the required dimensions.
Cold Finished
Stainless steel pipe and tube made by the hot finishing process may have some limitations which might create the need for further cold finishing operations. Cold finishing is desirable to achieve:
(i) closer tolerances of material,
(ii) cleaner and smoother surfaces,
(iii) more readily controlled mechanical properties,
(iv) a far greater range of sizes, particularly small diameters and thin wall thicknesses,
(v) an almost limitless range of non-circular shapes.
Cold finishing is obtained by drawing a tube with larger outside diameter and wall thickness than the finished product through an external sizing die. The internal size can be controlled by the use of a plug or mandrel.
Centrifugal Cast
The cast tube or pipe is formed by centrifugal force generated as the metal becomes entrained on the inside of a spinning cylindrical metal mould. This gives a tubular casting with the outside diameter and length determined by the mould size and the inside diameter determined by the amount of metal poured. Centrifugal cast materials come in a range of sizes and these are generally limited to a minimum of 65 mm OD and a maximum of 650 mm OD. Lengths to 5 metres are available although 2-4 metres is more common.
Forged and Bored
An ingot or bloom is forged and brought as nearly as practicable to the finished size and shape by hot working. The material is adequately worked under a tool of sufficient capacity to refine the structure in the wall of the finished pipe. After heat treatment the inside and outside diameters are machined to final size.
WELDED MANUFACTURING PROCESSES
Continuously Longitudinal Welded
A coil of stainless steel strip is fed into the tube mill. The strip passes through forming rolls which progressively form the material ready for welding. The welding process is then carried out, usually tungsten inert gas (TIG). The product passes under a sanding belt which removes the weld bead on the outside diameter. The product can then be subjected to the proper post-weld treatment to bring it to specification.
Fabricated Welded
This method utilises sheets or plates of the required thickness and developed width, to manufacture the pipe or tube. The plate is pressed into shape with a press brake, which is equipped with the appropriate tooling. Following the forming operation the product is fed through a series of rolls to ensure the correct cross sectional form during the welding operation which follows. After welding, the product can be subjected to the proper post-weld treatment required to bring it to specification.
Spirally Welded
Spirally welded tube is produced by driving coil strip from a de-coiler, through drive rollers, and into a cylindrical former (or shoe), at a pre-determined angle. The edges of the resulting “spring-like” profile are arc welded as they feed past a fixed welding torch. This process is particularly suitable for making large diameter tubes, with relatively thin wall thicknesses, to close tolerances of straightness and ovality.
Information obtained from the Australian Stainless Steel Development Association.
Pipes and tubes are manufactured by either the seamless or welded process. These processes can be broken down into a number of manufacturing subgroups.
PROCHEM PIPING PRODUCTS PIPE AND TUBE
28 © PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
5S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
10S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
40S
TE
MP
ER
AT
UR
E D
EG
C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
832
.49
32.4
932
.49
31.3
129
.43
28.0
226
.84
26.1
347
.55
47.5
547
.55
45.8
243
.07
41.0
039
.28
38.2
4
81/
432
.51
32.5
132
.51
31.3
329
.44
28.0
326
.85
26.1
546
.07
46.0
746
.07
44.4
041
.73
39.7
338
.06
37.0
6
103/
825
.45
25.4
525
.45
24.5
223
.05
21.9
421
.02
20.4
736
.99
36.9
936
.99
35.6
533
.51
31.9
030
.56
29.7
5
151/
220
.06
20.0
620
.06
19.3
418
.17
17.3
016
.57
16.1
426
.19
26.1
926
.19
25.2
423
.72
22.5
821
.63
21.0
635
.43
35.4
335
.43
34.1
532
.10
30.5
529
.27
28.5
0
203/
415
.77
15.7
715
.77
15.2
014
.29
13.6
013
.03
12.6
920
.50
20.5
020
.50
19.7
518
.57
17.6
716
.93
16.4
928
.65
28.6
528
.65
27.6
125
.95
24.7
023
.67
23.0
4
251
12.4
612
.46
12.4
612
.01
11.2
910
.75
10.3
010
.02
21.5
921
.59
21.5
920
.81
19.5
618
.62
17.8
317
.37
26.8
126
.81
26.8
125
.84
24.2
823
.12
22.1
521
.56
321-
1/4
9.77
9.77
9.77
9.42
8.85
8.43
8.07
7.86
16.8
116
.81
16.8
116
.20
15.2
314
.50
13.8
913
.52
21.9
921
.99
21.9
921
.19
19.9
218
.96
18.1
717
.69
401-
1/2
8.50
8.50
8.50
8.19
7.70
7.33
7.02
6.84
14.5
814
.58
14.5
814
.05
13.2
012
.57
12.0
411
.72
19.7
119
.71
19.7
119
.00
17.8
517
.00
16.2
815
.85
502
6.77
6.77
6.77
6.52
6.13
5.83
5.59
5.44
11.5
511
.55
11.5
511
.13
10.4
69.
969.
549.
2916
.60
16.6
016
.60
15.9
915
.03
14.3
113
.71
13.3
5
652-
1/2
7.16
7.16
7.16
6.90
6.48
6.17
5.91
5.76
10.4
710
.47
10.4
710
.09
9.48
9.03
8.65
8.42
18.1
918
.19
18.1
917
.53
16.4
815
.69
15.0
314
.63
803
5.85
5.85
5.85
5.64
5.30
5.04
4.83
4.70
8.54
8.54
8.54
8.23
7.73
7.36
7.05
6.87
15.7
615
.76
15.7
615
.19
14.2
813
.59
13.0
212
.68
903-
1/2
5.10
5.10
5.10
4.92
4.62
4.40
4.21
4.10
7.44
7.44
7.44
7.17
6.74
6.42
6.15
5.98
14.3
514
.35
14.3
513
.83
13.0
012
.37
11.8
511
.54
100
44.
534.
534.
534.
364.
103.
903.
743.
646.
596.
596.
596.
355.
975.
685.
455.
3013
.33
13.3
313
.33
12.8
512
.07
11.4
911
.01
10.7
2
125
54.
814.
814.
814.
644.
364.
153.
973.
875.
935.
935.
935.
725.
375.
114.
904.
7711
.66
11.6
611
.66
11.2
410
.56
10.0
69.
639.
38
150
64.
034.
034.
033.
883.
653.
473.
333.
244.
964.
964.
964.
784.
494.
284.
103.
9910
.59
10.5
910
.59
10.2
19.
599.
138.
758.
52
200
83.
083.
083.
082.
972.
792.
662.
552.
484.
204.
204.
204.
053.
813.
623.
473.
389.
329.
329.
328.
988.
448.
037.
697.
49
250
103.
033.
033.
032.
922.
752.
622.
512.
443.
753.
753.
753.
613.
403.
233.
103.
028.
448.
448.
448.
147.
657.
286.
976.
79
300
122.
982.
982.
982.
872.
702.
572.
462.
403.
443.
443.
443.
323.
122.
972.
842.
777.
297.
297.
297.
026.
606.
286.
025.
86
350
142.
712.
712.
712.
612.
452.
342.
242.
183.
283.
283.
283.
162.
972.
832.
712.
646.
626.
626.
626.
386.
005.
715.
475.
33
400
162.
512.
512.
512.
422.
272.
162.
072.
022.
872.
872.
872.
762.
592.
472.
372.
305.
785.
785.
785.
575.
234.
984.
774.
65
450
182.
232.
232.
232.
152.
021.
921.
841.
792.
542.
542.
542.
452.
302.
192.
102.
055.
125.
125.
124.
944.
644.
424.
234.
12
500
202.
292.
292.
292.
202.
071.
971.
891.
842.
652.
652.
652.
562.
402.
292.
192.
134.
604.
604.
604.
434.
173.
973.
803.
70
550
222.
082.
082.
082.
001.
881.
791.
711.
672.
412.
412.
412.
322.
182.
081.
991.
94
600
242.
212.
212.
212.
132.
001.
901.
821.
772.
532.
532.
532.
442.
292.
182.
092.
043.
823.
823.
823.
683.
463.
293.
153.
07
750
302.
022.
022.
021.
951.
831.
741.
671.
632.
532.
532.
532.
442.
292.
182.
092.
03
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (MPa) FOR DUAL GRADE 316/316L
29© PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
80S
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
160
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
XX
ST
EM
PE
RA
TU
RE
DE
G C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
871
.05
71.0
571
.05
68.4
764
.35
61.2
758
.69
57.1
5
81/
465
.95
65.9
565
.95
63.5
659
.74
56.8
754
.48
53.0
5
103/
854
.04
54.0
454
.04
52.0
848
.95
46.6
044
.64
43.4
6
151/
249
.94
49.9
449
.94
48.1
345
.23
43.0
641
.25
40.1
767
.43
67.4
367
.43
64.9
961
.08
58.1
555
.70
54.2
412
2.19
122.
1912
2.19
117.
7611
0.68
105.
3610
0.94
98.2
8
203/
440
.56
40.5
640
.56
39.0
936
.74
34.9
733
.50
32.6
261
.49
61.4
961
.49
59.2
655
.70
53.0
250
.80
49.4
695
.10
95.1
095
.10
91.6
586
.14
82.0
178
.56
76.4
9
251
37.3
537
.35
37.3
535
.99
33.8
332
.20
30.8
530
.04
55.0
755
.07
55.0
753
.08
49.8
847
.49
45.4
944
.30
86.2
686
.26
86.2
683
.14
78.1
474
.39
71.2
669
.39
321-
1/4
30.8
530
.85
30.8
529
.74
27.9
526
.60
25.4
924
.82
41.8
441
.84
41.8
440
.33
37.9
036
.08
34.5
733
.66
69.4
869
.48
69.4
866
.96
62.9
459
.91
57.4
055
.89
401-
1/2
27.9
727
.97
27.9
726
.96
25.3
324
.12
23.1
022
.50
41.0
041
.00
41.0
039
.51
37.1
435
.35
33.8
732
.98
62.1
862
.18
62.1
859
.93
56.3
253
.62
51.3
650
.01
502
24.1
224
.12
24.1
223
.25
21.8
520
.80
19.9
319
.40
40.0
840
.08
40.0
838
.63
36.3
134
.56
33.1
132
.24
52.8
152
.81
52.8
150
.90
47.8
445
.54
43.6
342
.48
652-
1/2
25.3
125
.31
25.3
124
.40
22.9
321
.83
20.9
120
.36
35.5
935
.59
35.5
934
.30
32.2
430
.69
29.4
028
.62
55.7
455
.74
55.7
453
.72
50.4
948
.07
46.0
544
.84
803
22.3
722
.37
22.3
721
.56
20.2
719
.29
18.4
818
.00
33.9
533
.95
33.9
532
.72
30.7
529
.27
28.0
427
.31
48.7
048
.70
48.7
046
.94
44.1
142
.00
40.2
339
.17
903-
1/2
20.6
420
.64
20.6
419
.89
18.6
917
.80
17.0
516
.60
100
419
.35
19.3
519
.35
18.6
517
.53
16.6
815
.98
15.5
631
.78
31.7
831
.78
30.6
328
.79
27.4
026
.25
25.5
641
.62
41.6
241
.62
40.1
137
.70
35.8
934
.38
33.4
8
125
517
.30
17.3
017
.30
16.6
815
.67
14.9
214
.29
13.9
230
.10
30.1
030
.10
29.0
127
.26
25.9
524
.86
24.2
136
.91
36.9
136
.91
35.5
733
.43
31.8
330
.49
29.6
9
150
616
.69
16.6
916
.69
16.0
815
.12
14.3
913
.79
13.4
228
.95
28.9
528
.95
27.9
026
.22
24.9
623
.91
23.2
835
.55
35.5
535
.55
34.2
632
.20
30.6
529
.37
28.5
9
200
814
.74
14.7
414
.74
14.2
113
.35
12.7
112
.18
11.8
627
.92
27.9
227
.92
26.9
125
.29
24.0
823
.07
22.4
626
.88
26.8
826
.88
25.9
124
.35
23.1
822
.21
21.6
2
250
1011
.70
11.7
011
.70
11.2
810
.60
10.0
99.
679.
4127
.82
27.8
227
.82
26.8
125
.19
23.9
922
.98
22.3
724
.45
24.4
524
.45
23.5
622
.14
21.0
820
.19
19.6
6
300
129.
809.
809.
809.
458.
888.
458.
107.
8827
.30
27.3
027
.30
26.3
124
.72
23.5
422
.55
21.9
520
.33
20.3
320
.33
19.5
918
.41
17.5
316
.79
16.3
5
350
148.
908.
908.
908.
588.
067.
677.
357.
1626
.58
26.5
826
.58
25.6
224
.08
22.9
221
.96
21.3
8
400
167.
757.
757.
757.
477.
026.
696.
406.
2426
.35
26.3
526
.35
25.4
023
.87
22.7
221
.77
21.2
0
450
186.
876.
876.
876.
626.
235.
935.
685.
5326
.17
26.1
726
.17
25.2
223
.70
22.5
721
.62
21.0
5
500
206.
176.
176.
175.
945.
595.
325.
094.
9626
.01
26.0
126
.01
25.0
723
.56
22.4
321
.49
20.9
2
550
2212
.92
12.9
212
.92
12.4
511
.70
11.1
410
.67
10.3
925
.47
25.4
725
.47
24.5
423
.07
21.9
621
.04
20.4
8
600
245.
125.
125.
124.
934.
634.
414.
234.
1125
.77
25.7
725
.77
24.8
323
.34
22.2
221
.29
20.7
3
750
30
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (Mpa) FOR DUAL GRADE 316/316L
30 © PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
5S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
10S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
40S
TE
MP
ER
AT
UR
E D
EG
C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
827
.08
27.0
827
.08
25.4
323
.78
22.3
721
.42
20.4
839
.62
39.6
239
.62
37.2
134
.80
32.7
331
.35
29.9
7
81/
427
.09
27.0
927
.09
25.4
423
.79
22.3
821
.43
20.4
938
.39
38.3
938
.39
36.0
633
.72
31.7
230
.38
29.0
4
103/
821
.20
21.2
021
.20
19.9
118
.62
17.5
216
.78
16.0
430
.83
30.8
330
.83
28.9
527
.07
25.4
624
.39
23.3
2
151/
216
.72
16.7
216
.72
15.7
014
.68
13.8
113
.23
12.6
521
.82
21.8
221
.82
20.4
919
.17
18.0
317
.27
16.5
129
.53
29.5
329
.53
27.7
325
.93
24.3
923
.36
22.3
4
203/
413
.14
13.1
413
.14
12.3
411
.54
10.8
610
.40
9.94
17.0
817
.08
17.0
816
.04
15.0
014
.11
13.5
112
.92
23.8
723
.87
23.8
722
.42
20.9
719
.72
18.8
918
.06
251
10.3
910
.39
10.3
99.
759.
128.
588.
227.
8617
.99
17.9
917
.99
16.9
015
.80
14.8
614
.24
13.6
122
.34
22.3
422
.34
20.9
819
.62
18.4
517
.68
16.9
0
321-
1/4
8.14
8.14
8.14
7.65
7.15
6.73
6.44
6.16
14.0
114
.01
14.0
113
.16
12.3
011
.57
11.0
910
.60
18.3
318
.33
18.3
317
.21
16.0
915
.14
14.5
013
.86
401-
1/2
7.08
7.08
7.08
6.65
6.22
5.85
5.60
5.36
12.1
512
.15
12.1
511
.41
10.6
710
.03
9.61
9.19
16.4
216
.42
16.4
215
.42
14.4
213
.57
13.0
012
.42
502
5.64
5.64
5.64
5.29
4.95
4.66
4.46
4.26
9.63
9.63
9.63
9.04
8.45
7.95
7.62
7.28
13.8
313
.83
13.8
312
.99
12.1
511
.42
10.9
410
.46
652-
1/2
5.96
5.96
5.96
5.60
5.24
4.92
4.72
4.51
8.72
8.72
8.72
8.19
7.66
7.20
6.90
6.60
15.1
615
.16
15.1
614
.24
13.3
112
.52
11.9
911
.47
803
4.87
4.87
4.87
4.58
4.28
4.02
3.85
3.69
7.11
7.11
7.11
6.68
6.25
5.88
5.63
5.38
13.1
313
.13
13.1
312
.33
11.5
310
.85
10.3
99.
93
903-
1/2
4.25
4.25
4.25
3.99
3.73
3.51
3.36
3.22
6.20
6.20
6.20
5.82
5.44
5.12
4.90
4.69
11.9
611
.96
11.9
611
.23
10.5
09.
889.
469.
04
100
43.
773.
773.
773.
543.
313.
112.
982.
855.
495.
495.
495.
164.
824.
544.
354.
1511
.11
11.1
111
.11
10.4
39.
759.
178.
798.
40
125
54.
014.
014.
013.
763.
523.
313.
173.
034.
944.
944.
944.
644.
344.
083.
913.
749.
729.
729.
729.
138.
538.
037.
697.
35
150
63.
363.
363.
363.
152.
952.
772.
652.
544.
134.
134.
133.
883.
633.
413.
273.
138.
828.
828.
828.
297.
757.
296.
986.
67
200
82.
572.
572.
572.
412.
252.
122.
031.
943.
503.
503.
503.
293.
072.
892.
772.
657.
767.
767.
767.
296.
826.
416.
145.
87
250
102.
532.
532.
532.
372.
222.
092.
001.
913.
123.
123.
122.
932.
742.
582.
472.
367.
047.
047.
046.
616.
185.
815.
575.
32
300
122.
482.
482.
482.
332.
182.
051.
961.
882.
872.
872.
872.
692.
522.
372.
272.
176.
076.
076.
075.
705.
335.
024.
804.
59
350
142.
262.
262.
262.
121.
981.
861.
791.
712.
732.
732.
732.
572.
402.
262.
162.
075.
525.
525.
525.
184.
854.
564.
374.
17
400
162.
092.
092.
091.
961.
831.
721.
651.
582.
392.
392.
392.
242.
101.
971.
891.
804.
814.
814.
814.
524.
233.
983.
813.
64
450
181.
861.
861.
861.
741.
631.
531.
471.
402.
122.
122.
121.
991.
861.
751.
681.
604.
274.
274.
274.
013.
753.
533.
383.
23
500
201.
901.
901.
901.
791.
671.
571.
511.
442.
212.
212.
212.
081.
941.
831.
751.
673.
833.
833.
833.
603.
373.
173.
032.
90
550
221.
731.
731.
731.
621.
521.
431.
371.
312.
012.
012.
011.
881.
761.
661.
591.
52
600
241.
841.
841.
841.
731.
611.
521.
451.
392.
112.
112.
111.
981.
851.
741.
671.
593.
183.
183.
182.
992.
792.
632.
522.
41
750
301.
681.
681.
681.
581.
481.
391.
331.
272.
112.
112.
111.
981.
851.
741.
671.
59
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (MPa) FOR GRADE 316L
31© PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
80S
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
160
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
XX
ST
EM
PE
RA
TU
RE
DE
G C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
859
.21
59.2
159
.21
55.6
052
.00
48.9
146
.85
44.7
9
81/
454
.96
54.9
654
.96
51.6
148
.27
45.4
043
.49
41.5
8
103/
845
.03
45.0
345
.03
42.2
939
.55
37.2
035
.63
34.0
6
151/
241
.61
41.6
141
.61
39.0
836
.55
34.3
832
.93
31.4
856
.19
56.1
956
.19
52.7
749
.35
46.4
244
.46
42.5
110
1.82
101.
8210
1.82
95.6
289
.43
84.1
180
.57
77.0
3
203/
433
.80
33.8
033
.80
31.7
429
.68
27.9
226
.74
25.5
751
.24
51.2
451
.24
48.1
245
.00
42.3
340
.55
38.7
679
.25
79.2
579
.25
74.4
269
.60
65.4
762
.71
59.9
5
251
31.1
231
.12
31.1
229
.23
27.3
325
.71
24.6
323
.54
45.8
945
.89
45.8
943
.10
40.3
037
.91
36.3
134
.72
71.8
971
.89
71.8
967
.51
63.1
359
.38
56.8
854
.38
321-
1/4
25.7
125
.71
25.7
124
.15
22.5
821
.24
20.3
419
.45
34.8
734
.87
34.8
732
.75
30.6
228
.80
27.5
926
.38
57.9
057
.90
57.9
054
.38
50.8
547
.83
45.8
243
.80
401-
1/2
23.3
123
.31
23.3
121
.89
20.4
719
.25
18.4
417
.63
34.1
634
.16
34.1
632
.08
30.0
028
.22
27.0
325
.85
51.8
251
.82
51.8
248
.66
45.5
142
.80
41.0
039
.20
502
20.1
020
.10
20.1
018
.88
17.6
516
.60
15.9
015
.21
33.4
033
.40
33.4
031
.37
29.3
327
.59
26.4
325
.27
44.0
144
.01
44.0
141
.33
38.6
536
.36
34.8
333
.29
652-
1/2
21.0
921
.09
21.0
919
.81
18.5
217
.42
16.6
915
.96
29.6
629
.66
29.6
627
.85
26.0
524
.50
23.4
722
.43
46.4
546
.45
46.4
543
.63
40.8
038
.37
36.7
635
.14
803
18.6
418
.64
18.6
417
.51
16.3
715
.40
14.7
514
.10
28.2
928
.29
28.2
926
.57
24.8
523
.37
22.3
921
.40
40.5
840
.58
40.5
838
.11
35.6
433
.52
32.1
130
.70
903
-1/2
17.2
017
.20
17.2
016
.15
15.1
014
.21
13.6
113
.01
100
416
.12
16.1
216
.12
15.1
414
.16
13.3
212
.76
12.2
026
.48
26.4
826
.48
24.8
723
.26
21.8
820
.95
20.0
334
.68
34.6
834
.68
32.5
730
.46
28.6
527
.45
26.2
4
125
514
.42
14.4
214
.42
13.5
412
.66
11.9
111
.41
10.9
125
.08
25.0
825
.08
23.5
522
.03
20.7
219
.84
18.9
730
.76
30.7
630
.76
28.8
827
.01
25.4
124
.34
23.2
7
150
613
.91
13.9
113
.91
13.0
612
.21
11.4
911
.00
10.5
224
.12
24.1
224
.12
22.6
521
.18
19.9
219
.09
18.2
529
.62
29.6
229
.62
27.8
226
.02
24.4
723
.44
22.4
1
200
812
.28
12.2
812
.28
11.5
410
.79
10.1
59.
729.
2923
.27
23.2
723
.27
21.8
520
.44
19.2
218
.41
17.6
022
.40
22.4
022
.40
21.0
419
.68
18.5
117
.73
16.9
5
250
109.
759.
759.
759.
168.
568.
057.
717.
3823
.18
23.1
823
.18
21.7
720
.36
19.1
518
.34
17.5
320
.37
20.3
720
.37
19.1
317
.89
16.8
316
.12
15.4
1
300
128.
178.
178.
177.
677.
176.
756.
466.
1822
.75
22.7
522
.75
21.3
619
.98
18.7
918
.00
17.2
116
.94
16.9
416
.94
15.9
114
.88
13.9
913
.40
12.8
1
350
147.
417.
417.
416.
966.
516.
125.
875.
6122
.15
22.1
522
.15
20.8
019
.45
18.3
017
.53
16.7
6
400
166.
466.
466.
466.
075.
675.
345.
114.
8921
.96
21.9
621
.96
20.6
219
.29
18.1
417
.38
16.6
1
450
185.
735.
735.
735.
385.
034.
734.
534.
3321
.81
21.8
121
.81
20.4
819
.15
18.0
117
.25
16.5
0
500
205.
145.
145.
144.
834.
514.
244.
073.
8921
.67
21.6
721
.67
20.3
519
.04
17.9
017
.15
16.4
0
550
2210
.77
10.7
710
.77
10.1
19.
458.
898.
528.
1421
.22
21.2
221
.22
19.9
318
.64
17.5
316
.79
16.0
5
600
244.
264.
264.
264.
003.
743.
523.
373.
2221
.47
21.4
721
.47
20.1
718
.86
17.7
416
.99
16.2
4
750
30
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (Mpa) FOR GRADE 316L
32 © PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
5S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
10S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
40S
TE
MP
ER
AT
UR
E D
EG
C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
832
.49
32.4
932
.49
30.6
128
.72
27.0
826
.13
25.1
947
.55
47.5
547
.55
44.7
942
.03
39.6
238
.24
36.8
6
81/
432
.51
32.5
132
.51
30.6
228
.74
27.0
926
.15
25.2
046
.07
46.0
746
.07
43.4
040
.73
38.3
937
.06
35.7
2
103/
825
.45
25.4
525
.45
23.9
722
.50
21.2
020
.47
19.7
336
.99
36.9
936
.99
34.8
532
.70
30.8
329
.75
28.6
8
151/
220
.06
20.0
620
.06
18.9
017
.74
16.7
216
.14
15.5
526
.19
26.1
926
.19
24.6
723
.15
21.8
221
.06
20.3
035
.43
35.4
335
.43
33.3
831
.33
29.5
328
.50
27.4
7
203/
415
.77
15.7
715
.77
14.8
613
.94
13.1
412
.69
12.2
320
.50
20.5
020
.50
19.3
118
.12
17.0
816
.49
15.8
928
.65
28.6
528
.65
26.9
925
.33
23.8
723
.04
22.2
1
251
12.4
612
.46
12.4
611
.74
11.0
210
.39
10.0
29.
6621
.59
21.5
921
.59
20.3
419
.09
17.9
917
.37
16.7
426
.81
26.8
126
.81
25.2
523
.70
22.3
421
.56
20.7
9
321-
1/4
9.77
9.77
9.77
9.21
8.64
8.14
7.86
7.58
16.8
116
.81
16.8
115
.84
14.8
614
.01
13.5
213
.04
21.9
921
.99
21.9
920
.72
19.4
418
.33
17.6
917
.05
401-
1/2
8.50
8.50
8.50
8.01
7.51
7.08
6.84
6.59
14.5
814
.58
14.5
813
.73
12.8
912
.15
11.7
211
.30
19.7
119
.71
19.7
118
.57
17.4
216
.42
15.8
515
.28
502
6.77
6.77
6.77
6.37
5.98
5.64
5.44
5.24
11.5
511
.55
11.5
510
.88
10.2
19.
639.
298.
9616
.60
16.6
016
.60
15.6
314
.67
13.8
313
.35
12.8
7
652-
1/2
7.16
7.16
7.16
6.74
6.33
5.96
5.76
5.55
10.4
710
.47
10.4
79.
869.
258.
728.
428.
1218
.19
18.1
918
.19
17.1
416
.08
15.1
614
.63
14.1
0
803
5.85
5.85
5.85
5.51
5.17
4.87
4.70
4.53
8.54
8.54
8.54
8.04
7.55
7.11
6.87
6.62
15.7
615
.76
15.7
614
.85
13.9
313
.13
12.6
812
.22
903-
1/2
5.10
5.10
5.10
4.81
4.51
4.25
4.10
3.96
7.44
7.44
7.44
7.01
6.58
6.20
5.98
5.77
14.3
514
.35
14.3
513
.52
12.6
811
.96
11.5
411
.12
100
44.
534.
534.
534.
264.
003.
773.
643.
516.
596.
596.
596.
215.
835.
495.
305.
1113
.33
13.3
313
.33
12.5
611
.78
11.1
110
.72
10.3
3
125
54.
814.
814.
814.
534.
254.
013.
873.
735.
935.
935.
935.
595.
244.
944.
774.
6011
.66
11.6
611
.66
10.9
910
.31
9.72
9.38
9.04
150
64.
034.
034.
033.
793.
563.
363.
243.
124.
964.
964.
964.
674.
394.
133.
993.
8510
.59
10.5
910
.59
9.97
9.36
8.82
8.52
8.21
200
83.
083.
083.
082.
902.
722.
572.
482.
394.
204.
204.
203.
963.
713.
503.
383.
269.
329.
329.
328.
788.
247.
767.
497.
22
250
103.
033.
033.
032.
862.
682.
532.
442.
353.
753.
753.
753.
533.
323.
123.
022.
918.
448.
448.
447.
957.
467.
046.
796.
55
300
122.
982.
982.
982.
812.
632.
482.
402.
313.
443.
443.
443.
243.
042.
872.
772.
677.
297.
297.
296.
876.
446.
075.
865.
65
350
142.
712.
712.
712.
552.
402.
262.
182.
103.
283.
283.
283.
092.
902.
732.
642.
546.
626.
626.
626.
245.
855.
525.
335.
13
400
162.
512.
512.
512.
362.
222.
092.
021.
942.
872.
872.
872.
702.
532.
392.
302.
225.
785.
785.
785.
445.
114.
814.
654.
48
450
182.
232.
232.
232.
101.
971.
861.
791.
732.
542.
542.
542.
402.
252.
122.
051.
975.
125.
125.
124.
834.
534.
274.
123.
97
500
202.
292.
292.
292.
152.
021.
901.
841.
772.
652.
652.
652.
502.
352.
212.
132.
064.
604.
604.
604.
334.
073.
833.
703.
57
550
222.
082.
082.
081.
961.
831.
731.
671.
612.
412.
412.
412.
272.
132.
011.
941.
87
600
242.
212.
212.
212.
081.
951.
841.
771.
712.
532.
532.
532.
392.
242.
112.
041.
963.
823.
823.
823.
603.
383.
183.
072.
96
750
302.
022.
022.
021.
901.
791.
681.
631.
572.
532.
532.
532.
382.
232.
112.
031.
96
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (MPa) FOR DUAL GRADE 304/304L
33© PROCHEM PIPELINE PRODUCTS – MAY 2013
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
80S
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
160
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
XX
ST
EM
PE
RA
TU
RE
DE
G C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
871
.05
71.0
571
.05
66.9
362
.81
59.2
157
.15
55.0
9
81/
465
.95
65.9
565
.95
62.1
358
.31
54.9
653
.05
51.1
4
103/
854
.04
54.0
454
.04
50.9
047
.77
45.0
343
.46
41.9
0
151/
249
.94
49.9
449
.94
47.0
444
.15
41.6
140
.17
38.7
267
.43
67.4
367
.43
63.5
259
.61
56.1
954
.24
52.2
812
2.19
122.
1912
2.19
115.
1010
8.02
101.
8298
.28
94.7
4
203/
440
.56
40.5
640
.56
38.2
135
.86
33.8
032
.62
31.4
561
.49
61.4
961
.49
57.9
254
.36
51.2
449
.46
47.6
895
.10
95.1
095
.10
89.5
984
.07
79.2
576
.49
73.7
4
251
37.3
537
.35
37.3
535
.18
33.0
231
.12
30.0
428
.96
55.0
755
.07
55.0
751
.88
48.6
945
.89
44.3
042
.70
86.2
686
.26
86.2
681
.26
76.2
671
.89
69.3
966
.89
321-
1/4
30.8
530
.85
30.8
529
.06
27.2
825
.71
24.8
223
.92
41.8
441
.84
41.8
439
.42
36.9
934
.87
33.6
632
.44
69.4
869
.48
69.4
865
.45
61.4
257
.90
55.8
953
.87
401-
1/2
27.9
727
.97
27.9
726
.35
24.7
323
.31
22.5
021
.69
41.0
041
.00
41.0
038
.62
36.2
434
.16
32.9
831
.79
62.1
862
.18
62.1
858
.57
54.9
751
.82
50.0
148
.21
502
24.1
224
.12
24.1
222
.72
21.3
220
.10
19.4
018
.70
40.0
840
.08
40.0
837
.76
35.4
333
.40
32.2
431
.08
52.8
152
.81
52.8
149
.75
46.6
944
.01
42.4
840
.95
652-
1/2
25.3
125
.31
25.3
123
.85
22.3
821
.09
20.3
619
.63
35.5
935
.59
35.5
933
.52
31.4
629
.66
28.6
227
.59
55.7
455
.74
55.7
452
.51
49.2
846
.45
44.8
443
.22
803
22.3
722
.37
22.3
721
.08
19.7
818
.64
18.0
017
.35
33.9
533
.95
33.9
531
.98
30.0
128
.29
27.3
126
.32
48.7
048
.70
48.7
045
.88
43.0
540
.58
39.1
737
.76
903-
1/2
20.6
420
.64
20.6
419
.44
18.2
417
.20
16.6
016
.00
100
419
.35
19.3
519
.35
18.2
317
.11
16.1
215
.56
15.0
031
.78
31.7
831
.78
29.9
428
.09
26.4
825
.56
24.6
441
.62
41.6
241
.62
39.2
136
.80
34.6
833
.48
32.2
7
125
517
.30
17.3
017
.30
16.3
015
.30
14.4
213
.92
13.4
230
.10
30.1
030
.10
28.3
526
.61
25.0
824
.21
23.3
336
.91
36.9
136
.91
34.7
732
.63
30.7
629
.69
28.6
2
150
616
.69
16.6
916
.69
15.7
214
.75
13.9
113
.42
12.9
428
.95
28.9
528
.95
27.2
725
.59
24.1
223
.28
22.4
435
.55
35.5
535
.55
33.4
931
.43
29.6
228
.59
27.5
6
200
814
.74
14.7
414
.74
13.8
913
.03
12.2
811
.86
11.4
327
.92
27.9
227
.92
26.3
024
.69
23.2
722
.46
21.6
526
.88
26.8
826
.88
25.3
323
.77
22.4
021
.62
20.8
4
250
1011
.70
11.7
011
.70
11.0
210
.34
9.75
9.41
9.07
27.8
227
.82
27.8
226
.20
24.5
923
.18
22.3
721
.57
24.4
524
.45
24.4
523
.03
21.6
120
.37
19.6
618
.95
300
129.
809.
809.
809.
238.
668.
177.
887.
6027
.30
27.3
027
.30
25.7
124
.13
22.7
521
.95
21.1
620
.33
20.3
320
.33
19.1
517
.97
16.9
416
.35
15.7
6
350
148.
908.
908.
908.
387.
877.
417.
166.
9026
.58
26.5
826
.58
25.0
423
.50
22.1
521
.38
20.6
1
400
167.
757.
757.
757.
306.
856.
466.
246.
0126
.35
26.3
526
.35
24.8
323
.30
21.9
621
.20
20.4
3
450
186.
876.
876.
876.
476.
085.
735.
535.
3326
.17
26.1
726
.17
24.6
523
.13
21.8
121
.05
20.2
9
500
206.
176.
176.
175.
815.
455.
144.
964.
7826
.01
26.0
126
.01
24.5
022
.99
21.6
720
.92
20.1
7
550
2212
.92
12.9
212
.92
12.1
711
.42
10.7
710
.39
10.0
225
.47
25.4
725
.47
23.9
922
.51
21.2
220
.48
19.7
5
600
245.
125.
125.
124.
824.
524.
264.
113.
9725
.77
25.7
725
.77
24.2
722
.78
21.4
720
.73
19.9
8
750
30
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
SEAMLESS PIPE NOMINAL WORKING PRESSURES (Mpa) FOR DUAL GRADE 304/304L
34 © PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
5S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
10S
(1)
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
40S
TE
MP
ER
AT
UR
E D
EG
C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
827
.08
27.0
827
.08
25.6
624
.25
23.0
722
.13
21.6
639
.62
39.6
239
.62
37.5
535
.49
33.7
632
.38
31.7
0
81/
427
.09
27.0
927
.09
25.6
724
.26
23.0
822
.14
21.6
738
.39
38.3
938
.39
36.3
934
.39
32.7
231
.38
30.7
1
103/
821
.20
21.2
021
.20
20.1
018
.99
18.0
717
.33
16.9
630
.83
30.8
330
.83
29.2
227
.61
26.2
725
.20
24.6
6
151/
216
.72
16.7
216
.72
15.8
514
.97
14.2
513
.66
13.3
721
.82
21.8
221
.82
20.6
819
.55
18.6
017
.84
17.4
629
.53
29.5
329
.53
27.9
926
.45
25.1
624
.13
23.6
2
203/
413
.14
13.1
413
.14
12.4
611
.77
11.2
010
.74
10.5
117
.08
17.0
817
.08
16.1
915
.30
14.5
513
.96
13.6
623
.87
23.8
723
.87
22.6
321
.38
20.3
419
.51
19.1
0
251
10.3
910
.39
10.3
99.
849.
308.
858.
498.
3117
.99
17.9
917
.99
17.0
516
.11
15.3
314
.71
14.3
922
.34
22.3
422
.34
21.1
720
.01
19.0
418
.26
17.8
7
321-
1/4
8.14
8.14
8.14
7.72
7.29
6.94
6.65
6.51
14.0
114
.01
14.0
113
.28
12.5
511
.94
11.4
511
.21
18.3
318
.33
18.3
317
.37
16.4
115
.62
14.9
814
.66
401-
1/2
7.08
7.08
7.08
6.71
6.34
6.03
5.79
5.66
12.1
512
.15
12.1
511
.51
10.8
810
.35
9.93
9.72
16.4
216
.42
16.4
215
.57
14.7
114
.00
13.4
213
.14
502
5.64
5.64
5.64
5.34
5.05
4.80
4.61
4.51
9.63
9.63
9.63
9.12
8.62
8.20
7.87
7.70
13.8
313
.83
13.8
313
.11
12.3
911
.78
11.3
011
.06
652-
1/2
5.96
5.96
5.96
5.65
5.34
5.08
4.87
4.77
8.72
8.72
8.72
8.27
7.81
7.43
7.13
6.98
15.1
615
.16
15.1
614
.37
13.5
812
.92
12.3
912
.13
803
4.87
4.87
4.87
4.62
4.36
4.15
3.98
3.90
7.11
7.11
7.11
6.74
6.37
6.06
5.81
5.69
13.1
313
.13
13.1
312
.45
11.7
611
.19
10.7
310
.51
903-
1/2
4.25
4.25
4.25
4.03
3.81
3.62
3.47
3.40
6.20
6.20
6.20
5.88
5.55
5.28
5.07
4.96
11.9
611
.96
11.9
611
.33
10.7
110
.19
9.77
9.56
100
43.
773.
773.
773.
573.
383.
213.
083.
025.
495.
495.
495.
214.
924.
684.
494.
3911
.11
11.1
111
.11
10.5
39.
959.
469.
088.
88
125
54.
014.
014.
013.
803.
593.
423.
283.
214.
944.
944.
944.
684.
434.
214.
043.
959.
729.
729.
729.
218.
708.
287.
947.
77
150
63.
363.
363.
363.
183.
012.
862.
742.
684.
134.
134.
133.
923.
703.
523.
383.
318.
828.
828.
828.
367.
907.
527.
217.
06
200
82.
572.
572.
572.
432.
302.
192.
102.
053.
503.
503.
503.
323.
142.
982.
862.
807.
767.
767.
767.
366.
956.
616.
346.
21
250
102.
532.
532.
532.
402.
262.
152.
072.
023.
123.
123.
122.
962.
802.
662.
552.
507.
047.
047.
046.
676.
305.
995.
755.
63
300
122.
482.
482.
482.
352.
222.
112.
031.
982.
872.
872.
872.
722.
572.
442.
342.
296.
076.
076.
075.
765.
445.
174.
964.
86
350
142.
262.
262.
262.
142.
021.
921.
841.
812.
732.
732.
732.
592.
452.
332.
232.
185.
525.
525.
525.
234.
944.
704.
514.
41
400
162.
092.
092.
091.
981.
871.
781.
711.
672.
392.
392.
392.
262.
142.
031.
951.
914.
814.
814.
814.
564.
314.
103.
933.
85
450
181.
861.
861.
861.
761.
661.
581.
521.
482.
122.
122.
122.
011.
901.
811.
731.
694.
274.
274.
274.
053.
823.
643.
493.
41
500
201.
901.
901.
901.
801.
711.
621.
561.
522.
212.
212.
212.
101.
981.
881.
811.
773.
833.
833.
833.
633.
433.
273.
133.
07
550
221.
731.
731.
731.
641.
551.
471.
411.
382.
012.
012.
011.
901.
801.
711.
641.
60
600
241.
841.
841.
841.
741.
651.
571.
501.
472.
112.
112.
112.
001.
891.
801.
721.
693.
183.
183.
183.
022.
852.
712.
602.
55
750
301.
681.
681.
681.
601.
511.
431.
381.
352.
112.
112.
112.
001.
891.
791.
721.
68
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (MPa) FOR GRADE 304L
35© PROCHEM PIPELINE PRODUCTS – MAY 2013
NOMINAL WORKING PRESSURES
PROCHEM PIPING PRODUCTS PIPE AND TUBE
NO
MIN
AL
BO
RE
SIZ
ES
CH
ED
ULE
40S
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
160
TE
MP
ER
AT
UR
E D
EG
CS
CH
ED
ULE
XX
ST
EM
PE
RA
TU
RE
DE
G C
mm
inch
5010
015
020
025
030
035
040
050
100
150
200
250
300
350
400
5010
015
020
025
030
035
040
0
61/
859
.21
59.2
159
.21
56.1
253
.03
50.4
548
.39
47.3
6
81/
454
.96
54.9
654
.96
52.0
949
.22
46.8
344
.92
43.9
7
103/
845
.03
45.0
345
.03
42.6
840
.33
38.3
736
.81
36.0
2
151/
241
.61
41.6
141
.61
39.4
437
.27
35.4
634
.01
33.2
956
.19
56.1
956
.19
53.2
650
.33
47.8
945
.93
44.9
510
1.82
101.
8210
1.82
96.5
191
.20
86.7
783
.23
81.4
6
203/
433
.80
33.8
033
.80
32.0
330
.27
28.8
027
.63
27.0
451
.24
51.2
451
.24
48.5
745
.89
43.6
741
.88
40.9
979
.25
79.2
579
.25
75.1
170
.98
67.5
364
.78
63.4
0
251
31.1
231
.12
31.1
229
.50
27.8
726
.52
25.4
424
.90
45.8
945
.89
45.8
943
.50
41.1
039
.11
37.5
136
.71
71.8
971
.89
71.8
968
.14
64.3
861
.26
58.7
657
.51
321-
1/4
25.7
125
.71
25.7
124
.37
23.0
321
.91
21.0
120
.57
34.8
734
.87
34.8
733
.05
31.2
329
.71
28.5
027
.89
57.9
057
.90
57.9
054
.88
51.8
649
.34
47.3
346
.32
401-
1/2
23.3
123
.31
23.3
122
.09
20.8
719
.86
19.0
518
.64
34.1
634
.16
34.1
632
.38
30.6
029
.11
27.9
327
.33
51.8
251
.82
51.8
249
.11
46.4
144
.15
42.3
541
.45
502
20.1
020
.10
20.1
019
.05
18.0
017
.13
16.4
316
.08
33.4
033
.40
33.4
031
.66
29.9
228
.46
27.3
026
.72
44.0
144
.01
44.0
141
.71
39.4
237
.50
35.9
735
.21
652-
1/2
21.0
921
.09
21.0
919
.99
18.8
917
.97
17.2
416
.87
29.6
629
.66
29.6
628
.11
26.5
625
.27
24.2
423
.72
46.4
546
.45
46.4
544
.03
41.6
139
.59
37.9
737
.16
803
18.6
418
.64
18.6
417
.67
16.7
015
.89
15.2
414
.91
28.2
928
.29
28.2
926
.81
25.3
424
.11
23.1
222
.63
40.5
840
.58
40.5
838
.47
36.3
534
.58
33.1
732
.47
903-
1/2
17.2
017
.20
17.2
016
.30
15.4
014
.65
14.0
613
.76
100
416
.12
16.1
216
.12
15.2
814
.44
13.7
413
.18
12.9
026
.48
26.4
826
.48
25.1
023
.72
22.5
721
.65
21.1
834
.68
34.6
834
.68
32.8
731
.07
29.5
628
.35
27.7
5
125
514
.42
14.4
214
.42
13.6
712
.91
12.2
911
.79
11.5
325
.08
25.0
825
.08
23.7
722
.46
21.3
720
.50
20.0
630
.76
30.7
630
.76
29.1
527
.55
26.2
125
.14
24.6
0
150
613
.91
13.9
113
.91
13.1
812
.45
11.8
511
.37
11.1
224
.12
24.1
224
.12
22.8
621
.60
20.5
519
.71
19.3
029
.62
29.6
229
.62
28.0
826
.53
25.2
424
.21
23.7
0
200
812
.28
12.2
812
.28
11.6
411
.00
10.4
710
.04
9.83
23.2
723
.27
23.2
722
.05
20.8
419
.83
19.0
218
.61
22.4
022
.40
22.4
021
.23
20.0
719
.09
18.3
117
.92
250
109.
759.
759.
759.
248.
738.
317.
977.
8023
.18
23.1
823
.18
21.9
720
.76
19.7
518
.95
18.5
420
.37
20.3
720
.37
19.3
118
.24
17.3
616
.65
16.3
0
300
128.
178.
178.
177.
747.
316.
966.
676.
5322
.75
22.7
522
.75
21.5
620
.37
19.3
818
.59
18.2
016
.94
16.9
416
.94
16.0
615
.17
14.4
313
.85
13.5
5
350
147.
417.
417.
417.
036.
646.
326.
065.
9322
.15
22.1
522
.15
21.0
019
.84
18.8
818
.11
17.7
2
400
166.
466.
466.
466.
125.
795.
515.
285.
1721
.96
21.9
621
.96
20.8
119
.67
18.7
117
.95
17.5
7
450
185.
735.
735.
735.
435.
134.
884.
684.
5821
.81
21.8
121
.81
20.6
719
.53
18.5
817
.82
17.4
4
500
205.
145.
145.
144.
874.
604.
384.
204.
1121
.67
21.6
721
.67
20.5
419
.41
18.4
717
.72
17.3
4
550
2210
.77
10.7
710
.77
10.2
09.
649.
178.
808.
6121
.22
21.2
221
.22
20.1
119
.01
18.0
817
.35
16.9
8
600
244.
264.
264.
264.
043.
823.
633.
483.
4121
.47
21.4
721
.47
20.3
519
.23
18.3
017
.55
17.1
8
750
30
NO
MIN
AL W
OR
KIN
G P
RE
SS
UR
ES
Figu
res
show
n in
this
Tab
le a
re th
e no
min
al w
orki
ng p
ress
ures
for
seam
less
sta
inle
ss s
teel
pip
e un
der
cons
tant
ope
ratin
g co
nditi
ons;
thes
e in
clud
e a
typi
cal f
acto
r of
saf
ety.
Nom
inal
wor
king
pre
ssur
es fo
r w
elde
d pi
pe c
an b
e ca
lcul
ated
by
mul
tipyi
ng th
e fig
ure
in th
e ta
bles
by
the
wel
d jo
int e
ffici
eny
fact
or, t
ypic
ally
0.8
5.
The
tabl
es h
ave
been
form
ulat
ed b
y us
ing
the
figur
es o
btai
ned
by th
e A
ustr
alia
n P
ress
ure
Pip
ing
Sta
ndar
d A
S 4
041.
Det
aile
d de
sign
cal
cula
tions
sho
uld
be
in a
ccor
danc
e w
ith th
e ap
plic
able
des
ign
stan
dard
.
The
info
rmat
ion
is p
rovi
ded
as a
gui
de, i
t is
reco
mm
ende
d th
at p
rofe
ssio
nal e
ngin
eerin
g ad
vice
be
soug
ht o
n al
l pre
ssur
e-re
late
d de
sign
.
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SIO
NA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AN
SI/A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AN
SI/
AS
ME
B36
.10M
-200
4
(1) S
ched
ule
5S a
nd 1
0S W
all T
hick
ness
es d
o no
t per
mit
thre
adin
g in
acc
orda
nce
with
AN
SI/A
SM
E B
1.20
.1, I
SO
7-1
or
ISO
228
-1
SEAMLESS PIPE NOMINAL WORKING PRESSURES (Mpa) FOR GRADE 304L
36 © PROCHEM PIPELINE PRODUCTS – MAY 2013
PROCHEM PIPING PRODUCTS PIPE AND TUBE
PIPE DIMENSIONS & WEIGHTS
DIMENSIONS AND WEIGHTS OF SEAMLESS AND WELDED STAINLESS STEEL PIPE IN ACCORDANCE WITH ANSI/ASME B36.19M-2004 AND PIPE SUPPLIED DIMENSIONALLY IN ACCORDANCE WITH ASME B36.10M-2004
FIG
UR
ES
PR
INTE
D IS
TH
IS S
TYLE
ME
ET
THE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS O
F B
OTH
AN
SI/A
SM
E B
36.1
9M-2
004
& A
SM
E B
36.1
0M-2
004
FIG
UR
ES
PR
INTE
D IN
TH
IS S
TYLE
& U
ND
ER
LIN
ED
DO
NO
T C
ON
FOR
M D
IME
NS
ION
ALL
Y W
ITH
AS
ME
B36
.10M
-200
4
FIG
UR
ES
PR
INT
ED
IN T
HIS
ST
YLE
ON
LY M
EE
T T
HE
DIM
EN
SO
INA
L R
EQ
UIR
EM
EN
TS
OF
AS
ME
B36
.10M
-200
4.
(1) S
ched
ules
5S
and
10S
wal
l thi
ckne
sses
do
not p
erm
it th
read
ing
in a
ccor
danc
e w
ith A
NS
I/AS
ME
B1.
20.1
, AS
ISO
7-1
or
ISO
228
-1
Mas
s is
giv
en in
kilo
gram
s pe
r m
etre
and
is fo
r 31
6 S
tain
less
Ste
el p
ipe
with
pla
in e
nds.
The
diff
eren
t gra
des
of S
tain
less
Ste
el p
erm
it co
nsid
erab
le v
aria
tion
in m
ass
Oth
er A
uste
nitic
Sta
inle
ss S
teel
s m
ay b
e be
twee
n 1%
-2.6
% le
ss in
mas
s, a
nd th
e Fe
rriti
c S
tain
less
Ste
els
abou
t 3%
-4%
less
than
the
mas
s va
lues
as
show
n in
the
tabl
e
For
deta
ils o
f dim
ensi
onal
tole
ranc
es, r
efer
to th
e ap
plic
able
sta
ndar
ds s
uch
as A
STM
A31
2/31
2M. T
his
tabl
e is
a g
uide
onl
y an
d sh
ould
not
be
used
to d
eter
min
e av
aila
bilit
y of
pro
duct
No
min
al
Bo
re S
ize
Out
sid
e D
iam
eter
Sch
edul
e 5S
(1)
Sch
edul
e 10
S (1
)S
ched
ule
40S
Sch
edul
e 80
SS
ched
ule
160
Sch
edul
e X
XS
mm
inch
Wal
l Th
ickn
ess
Insi
de
Dia
met
er
Theo
retic
al
Wei
ght
(kg/
m)
Wal
l Th
ickn
ess
Insi
de
Dia
met
er
Theo
retic
al
Wei
ght
(kg/
m)
Wal
l Th
ickn
ess
Insi
de
Dia
met
er
Theo
retic
al
Wei
ght
(kg/
m)
Wal
l Th
ickn
ess
Insi
de
Dia
met
er
Theo
retic
al
Wei
ght
(kg/
m)
Wal
l Th
ickn
ess
Insi
de
Dia
met
er
Theo
retic
al
Wei
ght
(kg/
m)
Wal
l Th
ickn
ess
Insi
de
Dia
met
er
Theo
retic
al
Wei
ght
(kg/
m)
6 1
/810
.31.
247.
820.
291.
736.
840.
382.
415.
480.
48
8 1
/413
.71.
6510
.40
0.50
2.24
9.22
0.65
3.02
7.66
0.82
10 3
/817
.11.
6513
.80
0.65
2.31
12.4
80.
863.
2010
.70
1.12
15 1
/221
.31.
6518
.00
0.82
2.11
17.0
81.
022.
7715
.76
1.30
3.73
13.8
41.
654.
7811
.74
1.99
7.47
6.36
2.60
20 3
/426
.71.
6523
.40
1.04
2.11
22.4
81.
312.
8720
.96
1.72
3.91
18.8
82.
255.
5615
.58
2.96
7.82
11.0
63.
72
251
33
.41.
6530
.10
1.32
2.77
27.8
62.
143.
3826
.64
2.56
4.55
24.3
03.
316.
3520
.70
4.32
9.09
15.2
25.
56
321-
1/4
42.2
1.65
38.9
01.
692.
7736
.66
2.75
3.56
35.0
83.
464.
8532
.50
4.56
6.35
29.5
05.
739.
7022
.80
7.93
401-
1/2
48.3
1.65
45.0
01.
942.
7742
.76
3.18
3.68
40.9
44.
135.
0838
.14
5.52
7.14
34.0
27.
3910
.15
28.0
09.
74
502
60
.31.
6557
.00
2.44
2.77
54.7
64.
013.
9152
.48
5.55
5.54
49.2
27.
638.
7442
.82
11.3
311
.07
38.1
613
.71
652-
1/2
73.0
2.11
68.7
83.
773.
0566
.90
5.37
5.16
62.6
88.
817.
0158
.98
11.6
39.
5353
.94
15.2
114
.02
44.9
620
.79
803
88
.92.
1184
.68
4.61
3.05
82.8
06.
595.
4977
.92
11.5
27.
6273
.66
15.5
811
.13
66.6
421
.77
15.2
458
.42
28.2
3
903-
1/2
101.
62.
1197
.38
5.28
3.05
95.5
07.
565.
7490
.12
13.8
48.
0885
.44
19.0
0
100
4
114.
32.
1111
0.08
5.96
3.05
108.
208.
546.
0210
2.26
16.3
98.
5697
.18
22.7
613
.49
87.3
234
.19
17.1
280
.06
41.8
3
125
5
141.
32.
7713
5.76
9.65
3.40
134.
5011
.79
6.55
128.
2022
.19
9.53
122.
2431
.58
15.8
810
9.54
50.0
819
.05
103.
2058
.55
150
6
168.
32.
7716
2.76
11.5
33.
4016
1.50
14.1
07.
1115
4.08
28.8
210
.97
146.
3643
.39
18.2
613
1.78
68.8
821
.95
124.
4080
.76
200
8
219.
12.
7721
3.56
15.0
73.
7621
1.58
20.3
68.
1820
2.74
43.3
812
.70
193.
7065
.90
23.0
117
3.08
113.
4422
.23
174.
6411
0.03
250
10
273.
13.
4026
6.30
23.0
64.
1926
4.72
28.3
39.
2725
4.56
61.4
912
.70
247.
7083
.14
28.5
821
5.94
175.
6925
.40
222.
3015
8.18
300
12
323.
93.
9631
5.98
31.8
64.
5731
4.76
36.6
99.
5330
4.84
75.3
212
.70
298.
5099
.36
33.3
225
7.26
243.
4125
.40
273.
1019
0.61
350
14
355.
63.
9634
7.68
35.0
14.
7834
6.04
42.1
69.
5333
6.54
82.9
212
.70
330.
2010
9.49
35.7
128
4.18
287.
19
400
16
406.
44.
1939
8.02
42.3
74.
7839
6.84
48.2
79.
5338
7.34
95.0
912
.70
381.
0012
5.70
40.4
932
5.42
372.
47
450
18
457.
04.
1944
8.62
47.7
04.
7844
7.44
54.3
59.
5343
7.94
107.
2112
.70
431.
6014
1.86
45.2
436
6.52
468.
31
500
20
508.
04.
7849
8.44
60.4
85.
5449
6.92
69.9
99.
5348
8.94
119.
4312
.70
482.
6015
8.14
50.0
140
7.98
575.
81
550
22
559.
04.
7854
9.44
66.6
15.
5454
7.92
77.0
928
.58
501.
8438
1.11
53.9
845
1.04
685.
35
600
24
610.
05.
5459
8.92
84.1
96.
3559
7.30
96.3
79.
5359
0.94
143.
8712
.70
584.
6019
0.71
59.5
449
0.92
823.
95
750
30
762.
06.
3574
9.30
120.
647.
9274
6.16
150.
15
ALL
DIM
EN
SIO
NS
IN M
ILLI
ME
TRE
S
37© PROCHEM PIPELINE PRODUCTS – MAY 2013
PROCHEM PIPING PRODUCTS PIPE AND TUBE
THEORETICAL WORKING PRESSURE FOR SEAMLESS TUBE TP316/316L
316 (Seamless) -253 to 38°C
Wall Thickness
Size Inch 0.028 0.036 0.048 0.064 0.083 0.109 0.128
mm Inch mm 0.71 0.91 1.22 1.63 2.11 2.77 3.25
3.18 1/8" psi 8,579 12,083 19,185
kPa 59,110 83,254 132,188
4.76 3/16" psi 5,883 7,153 10,389
kPa 40,534 49,282 71,581
6.35 1/4" psi 4,311 5,682 7,199 10,464 15,363
kPa 29,700 39,150 49,603 72,097 105,848
7.94 5/16" psi 3,401 4,460 6,129 7,836 11,060
kPa 23,436 30,730 42,229 53,990 76,205
9.53 3/8" psi 3,671 5,017 6,274 8,679
kPa 25,290 34,566 43,230 59,797
12.7 1/2" psi 2,711 3,681 5,031 6,726 8,539
kPa 18,678 25,362 34,667 46,343 58,834
15.88 5/8" psi 2,149 2,907 3,953 5,249 6,474
kPa 14,806 20,029 27,233 36,166 44,604
19.05 3/4" psi 1,780 2,402 3,255 4,304 5,809 5,887
kPa 12,264 16,549 22,424 29,654 40,023 40,562
25.4 1" psi 1,781 2,403 3,161 4,235 4,741
kPa 12,269 16,555 21,780 29,181 32,665
31.75 1-1/4" psi 1,906 2,500 3,335 3,726
kPa 13,131 17,224 22,980 25,673
38.1 1-1/2" psi 1,574 2,060 2,741 3,058
kPa 10,844 14,196 18,886 21,072
50.8 2" psi 1,173 1,532 2,032 2,263
kPa 8,083 10,556 13,997 15,593
TUBE WORKING PRESSURE NOTES:
Tube working pressures have been calculated in accordance with ASME B31.3Where Thickness < Diameter/6, the formula 304.1.2 3a has been used. Where Thickness ≥ Diameter/6, the formula K304.1.2 35c has been used.
For TP316S = 20,000 psi Y = 0.4 W = 1 E = 1 c0 has been neglected
Tube Outside Diameter and Wall Thickness Tolerances have been considered when calculating the working pressures.
Numbers in standard text have been calculated based on ASTM A269/213 tolerances.
Numbers in bold italic text have been calculated based on ASTM A269 tolerances.
The Allowable Working Pressures calculated are a guide only. As there are variables that will alter the Allowable Working Pressure of the tube, it is the ultimate responsibility of the customer to verify that the tube is suitable for the application.
This table does not advise suitability for use with compression fittings. The purchaser must refer to the compression fitting manufacturers’ tubing data charts for size and wall thickness suitability.
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© PROCHEM PIPELINE PRODUCTS – MAY 2013 – PM10002-Rev0