Zhejiang Guanyu Stainless Steel Tube Co., Ltd  
  Directory | Useful Tool | Sitemap | Contact US | Home

         

Standard  

DIN 17456 General Purpose Seamless Stainless Steel Tubes






The subclauses marked with a single dot give specifications which are to be agreed upon at the time of ordering.
The subclauses marked with a two dots give specifications which optional and may be agreed upon at the time of ordering.

1. Field of application

1.1 This standard applies to general purpose seamless circular tubes and pipes (hereinaiter briefly referred to as tubes) made from the Stainless steel pipe listed in table 1. They are used. for example as construction tubing, a pipes for the fodd. pharmaceutical and automobile inoustries. and as pipes for domestic installation nd for decorative purposes.

Tubes conformming to ilre lequirernents o this stardard are intanded to be used on the basic of an 80% utilization of the permissble design stress in weld.

1.2 This standard does not apply to general purpose welded circular austenitic stainless steel tubes subject to special requiremnets (see DIN 17458).



Grade

Mfg. Process

Chemical composition(%)

C Si Mn P S Ni Cr Mo Others
X6CrTi12 S 0.08Max - - - - - 10.5~12.5 - Ti : 6】%C 1.00Max
X6CrAl13 S 0.08Max - - - - - 12.0~14.0 - Al : 0.010~0.30
X5CrNi1911 S 0.030Max - - - - 8.5~10.5 18.0~14.0 - -
X6Cr17 S 0.08Max - - - - - 15.5~17.5 - -
X6CrTi17 S 0.08Max - - - - - 16.0~18.0 - Ti : 7】%C 1.20Max
X5CrNi1810 S 0.07Max - - - - 8.5~10.5 17.0~19.0 - -
X2CrNi1911 S 0.03Max - - - - 10.5~12.5 18.0~20.0 - -
X2CrNiTi1810 S 0.03Max - - - - 8.5~10.5 17.0~19.0 - N : 0.12~0.22
X6CrNiTi1810 S 0.08Max - - - - 9.0~12.0 17.0~19.0 - Ti : 5】%C 0.80Max
X5CrNiNB1810 S 0.08Max - - - - 9.0~12.0 17.0~19.0 - Nb : 10Ti : 7】%C
X5CrNiMo17122 S 0.07Max - - - - 10.5~13.5 16.5~18.5 2.0~2.5 1.20Max%C 1.00Max
X2CrNiMo17132 S 0.030Max - - - - 11.0~14.0 16.5~18.5 2.0~2.5 -
X6CrNiMoTi17122 S 0.08Max - - - - 10.5~13.5 16.5~18.5 2.0~2.5 SUS321TB
X2CrNiMoN17133 S 0.030Max - - - 0.25Max 11.5~14.5 16.5~18.5 2.5~3.0 -
X2CrNiMo18143 S 0.030Max - - - 0.25Max 12.5~15.5 17.0~18.5 2.5~3.0 -
X5CrNiMo17133 S 0.07Max - - - 0.25Max 11.0~14.0 17.0~18.5 2.5~3.0 -
X2CrNiMoN17135 S 0.030Max - - - 0.25Max 12.5~14.5 16.5~18.5 4.0~5.0 -

Grade

 

Material
number
Tensile Test MPa or N/mm2

Remaks (Similar to JIS)

Possibility Temperature

Min Yield point

Tensile Strength

X6CrTi12 1.4512 190 390~560 -
X6CrAl13 1.4002 250 400~600 SUS405TP
X5CrNi1911 1.4006 250 450~650 -
X6Cr17 1.4016 270 450~650 -
X6CrTi17 1.4510 270 430~600 -
X5CrNi1810 1.4301 195 00~720 -
X2CrNi1911 1.4306 180 460~680 -
X2CrNiTi1810 1.4311 270 50~760 -
X6CrNiTi1810 1.4541 200 00~730 -
X5CrNiNB1810 1.4550 205 10~740 -
X5CrNiMo17122 1.4401 205 10~710 SUS316TB
X2CrNiMo17132 1.4404 190 490~690 SUS316HTB
X6CrNiMoTi17122 1.4571 210 00~730 SUS321TB
X2CrNiMoN17133 1.4429 295 80~800 -
X2CrNiMo18143 1.4435 190 490~690 -
X5CrNiMo17133 1.4438 205 10~710 -
X2CrNiMoN17135 1.4439 285 80~800 -

The data given in table 3 shall apply for the resistance of the steels to intercrystalline corrosion when tested as specified in subclause 6.5.4.

Steel grade % by mass
Symbol 2) Material
number
C Cr Mo Ni Others 3
Ferritic steels
x6CrTi 12
X6CrTi 13
x10Cr 13
x6Cr 17
x6CrTi 17
1.4512
1.4002
1.4006
1.4016
1.4510
÷0.08
÷0.08
0.08 to 0.12
÷0.08
÷0.08
10.5 to 12.5
12.0 to 14.0
12.0 to 14.0
15.5 to 17.5
16.0 to 18.0
-
-
-
-
-
-
-
-
-
-
Ti : 6x%C, up to 1.00
Al : 0.10 to 0.30
-
-
Ti : 7 x %C, up to 1.20
Austenitic Stainless Steel

x5CrNi 1810
x2CrNi 1911
x2CrNi 1810
x6CrNiTi 1810
x6CrNiNb 1810

1.4301
1.4306
1.4311
1.4541
1.4550
÷0.07
÷0.030
÷0.030
÷0.08
÷0.08
17.0 to 19.0
18.0 to 20.0
17.0 to 19.0
17.0 to 19.0
17.0 to 19.0
-
-
-
-
-
8.5 to 10.5
10.0 to 12.5
8.5 to 11.5
9.0 to 12.0
9.0 to 12.0
-
-

N : 0.12 to 0.22
Ti : 5x %C, up to 0.80
Nb : 10 x %C, up to 1.00 4)
x5CrNiMo 17 122
x2CrNiMo 17 132
x6CrNiMoTi 17 122
1.4401
1.4404
1.4571
÷0.07
÷0.030
÷0.08
16.5 to 18.5
16.5 to 18.5
16.5 to 18.5
2.5 to 2.5
2.5 to 2.5
2.5 to 2.5
10.5 to 13.5
11.0 to 14.0
10.5 to 13.5
-
-
Ti : 5 x %C, up to 0.80
x2CrNiMoN 17 33
x2CrNiMo 18 143
x5CrNiMo 17 133
1.4429
1.4435
1.4438
÷0.030
÷0.030
÷0.07
16.5 to 18.5
17.0 to 18.5
16.5 to 18.5
2.5 to 3.0
2.5 to 3.0
2.5 to 3.0
11.5 to 14.5
12.5 to 15.0
11.0 to 14.0
N : 0.14 to 0.22; S÷ 0.025
S÷ 0.025
S÷ 0.025
x2CrNiMoN 17 135 1.4439 ÷0.030 16.5 to 18.5 4.0 to 5.0 12.5 to 14.5 N : 0.12 to 0.22; S÷0.025

1) Elements not quoted in this table In respect of the Individual steel grakles shall not be added deliberately to the steel without the purchaser's consent, axcepllor the purpose of finishing the melt. Such elements shall in no way impair the usabiity or processability of the steel, e.g. its weldability, nor shall they affect the properties specified in this standard.

2) The symbols given in the December 1972 edition of DIN 17 440 may continue to be used during the period of validity of this standard (see table in the Explanatory notes).

3) Unless otherwise specified, P ÷ 0.045%, S ÷ 0.030%, Si ÷ 1.0%, for austenitic steels, Mn ÷ 2.0%, and for ferritic steels, Mn ÷ 1.0%.

4) Tantalum determined together with nlobium and expressed in the form of niobium content.

Table 2. Amounte by which the chamical composition in the product analysis may deviate from limit values specified for the cast analysis

Element limit values specilied
for the cast analysis as in table 1
% by mass<
Permissible
deviations 1)
% by mass
Carbon (C) ÷0.030
> 0.030 ÷ 0.12
+ 0.005
【0.01
Silicon (Si) ÷1.0 +.05
Manganese (Mn) ÷ .0
> 1.0 ÷ 2.0
+0.03
+0.04
Phosphorus (P) ÷0.045 +0.005
Sufur (S) ÷0.030 +0.005
Nitrogen (N) ÷0.22 【0.01
Aluminium (Al) ÷0.30 【0.05
Chromium (Cr) ∶10.5 < 15.0
∶15.0 ÷ 20.0
【0.15
【0.20
Molybdenum (Mo) ∶2.0 ÷ 5.0 【0.10
Nickel (Ni) ∶ 8.5 < 10.0
∶ 10.0 ÷ 15.0
【0.10
【0.15
Nibium (Nb) ÷ 1.00 【0.05
Titanium (Ti) ÷ 1.20 【0.05
1) If everal product analyses are carried out for a single cast and if these elements show contents for a single element outside the range specified for the ast analysis, this content shall either exceed the permissible maximum content or be below the permissible minimum content, but not both at the ame time for one cast.

Table 3. Mechanical propertles of the steel at ambient temperature in the as dellvered condition specified in table 6 and their resistance to Intercrystalline corrosion (applicable to wall thicknesses up to 50 mm in the case of austenitic steel tubes and up to 5 mm in the case of ferritic stainless steel tubes 1) 2)

Steel grade Heat
treatment
condition 2)



Maxlmum
HB or HV
hardness 3)




Minimum
yield stress
or
0.2%
proof stress
N/С
Minimum
1%
proof stress



N/С
Tensile
strength 2)




N/С
Minimum
elogation
after fracture 2)
(Lo=5do
%
Resistance to
intercrystalline corrosion 4)
Symbol Material
Longit-
udinal
Trans-
veres
in the as delivered
condition
after further
processing
by welding
without
heat
treatment
Ferritic steels
X6 CrTi 12
X2 CrNi 1911
X2 CrNiN 1810
X6 CrNiTi 1810
X6 CrNiNb 1810
1.4512
1.4002
1.4006
1.4016
1.4510
Annealed 175
180
200
185
185
190
250
250
270
270
-
-
-
-
-
390 to 560
400 to 600
450 to 650
450 to 600
450 to 600
30
20
20
20
20
25
15
15
15
15
n.g.
n.g.
n.g.
n.g.
g.
n.g.
n.g.
n.g.
n.g.
g.
Austenitic Stainless Steel
X5 CrNi 1810
X2 CrNi 1911
X6 CrNiNi 1810
X6CrNiTi 1810 7)
X6CrNiTiNb 1810 8)
X6CrNiNb 1810
1.4301
1.4306
1.4311
1.4541 7)
1.4541 8)
1.4550
Solution
annealed
and
quenched
  195
180
270
200
180
205
230
215
305
235
215
240
500 to 700
460 to 680
550 to 760
500 to 730
460 to 680
510 to 740
40
40
35
35
35
35
35
35
30
30
30
30
g. 6)
g.
g.
g.
g.
g.
g. 8)
g.
g.
g.
g.
g.
X5 CrNiMo 17 122
X2 CrNiMo 17 132
X6 CrNiMoTi 17 1227)
X6CrNiMoTi 17 122 7)
X6CrNiMoNb 17 122 8)
1.4401
1.4404
1.4571 7)
1.4571 8)
Solution
annealed
and
quenched
  205
190
210
190
240
225
245
225
510 to 710
490 to 690
500 to 730
490 to 690
40
40
35
35
30
30
30
30
g. 6)
g.
g.
g.
g. 6)
g.
g.
g.
X2CrNiMoN 17 133
X2CrNiMo 18 143
X5CrNiMo 17 133
1.4429
1.4435
1.4436
Solution
annealed
and
quenched
  295
190
205
330
225
240
580 to 800
490 to 690
510 to 710
35
40
40
30
30
30
g.
g.
g. 5)
g.
g.
g. 5)
X2CrNiMoN 17 135 1.4439 Solution
annealed
and
quenched
  285 315 580 to 800 35 30 g. g.

1) For greater wall thicknesses, the values shall be specified by agreement.

2) The vlues specified do not apply for condition f described in table 6. For this condition, they shall be agreed at the time of ordering, if required.

3) Average value from three test pieces at ambient temperature. Only one individual value of the test unit may be less than this value by a maximum of 30%.

4) When tested in accordance with DIN 50 914, G. means existing up to the limit temperatures listed in the last column of table 4.

5) Only for wall thicknesses not exceeding 6 mm.

6) Not to be used for tubes manufactured by hot working or subjected to further processing.

7) To be used for tubes manufactured by hot working or subjected to further processing.

Table 4. Minimum yalues of elevated temperature 0.2% and 1% proof stresses and guldellne values for the limit lemperature in the case of Intercrystalline corroslve stress.

Steelgrade 0.2% proof stress at a temperature, in∩, of 1% proof stress at a temperature, in∩, of
Symbol Material
number
50 100 150 200 250 300 350 400 450 500 550 50 100 150 200 250 300 350 400 450 500 550
N/П N/П
Ferritic steels
x6CrAl 13
x10Cr 13
1.4002
1.4006
240 235 230 225 225 220 210 195 - - - - - - - - - - - - - -
Austenitic steels
X5 CrNi 1810
X2 CrNi 1911
X2 CrNiN 1810
X6 CrNiTi 1810 2)
X6 CrNiTi 1810 3)
X6 CrNiNb 1810
1.4301
1.4306
1.4311
1.4541 2)
1.4541 3)
1.4550
177
162
245
190
162
191
157
147
205
176
147
177
142
132
175
167
132
167
127
118
157
157
118
157
118
108
145
147
108
147
110
100
136
136
100
136
104
94
130
130
94
130
98
89
125
125
89
125
95
85
121
121
85
121
92
81
119
119
81
119
90
80
118
118
80
118
211
201
280
222
201
226
191
181
240
208
181
211
172
162
210
195
162
196
157
147
187
185
147
186
145
137
175
175
137
177
135
127
167
167
127
167
129
121
161
161
121
161
125
116
156
156
116
156
122
112
152
152
112
152
120
109
149
149
109
149
120
108
147
147
108
147
X5 CrNiMo 17 122
X2 CrNiMo 17 132
X6 CrNiMoTi 17 122 2)
X6CrNiMoTi 17 122 3)
1.4401
1.4404
1.4571 2)
1.4571 3)
1.4580
196
182
202
182
206
177
166
185
166
186
162
152
177
152
177
147
137
167
137
167
137
127
157
127
157
127
118
145
118
145
120
113
140
113
140
115
108
135
108
135
112
103
131
103
131
110
100
129
100
129
108
98
127
98
127
230
217
234
217
240
211
199
218
199
221
191
181
206
181
206
177
167
196
167
196
167
157
186
157
186
156
145
175
145
175
150
139
169
139
169
144
135
164
135
164
141
130
160
130
160
139
128
158
128
158
137
127
157
127
157
X2CrNiMoN 17 133
X2CrNiMo 18 143
X5CrNiMo 17 133
1.4429
1.4435
1.4436
265
182
196
225
166
177
197
152
162
178
137
147
165
127
137
155
118
127
150
113
120
145
108
115
140
103
112
138
100
110
136
98
108
300
217
230
260
199
211
227
181
191
208
167
177
195
157
167
185
145
156
180
139
150
175
135
144
170
130
141
168
128
139
166
127
137
X2CrNiMoN 17 135 1.4439 260 225 200 185 175 165 155 150 - - - 290 255 230 210 200 190 180 175 - - -

1) Up to these temperatures, the material will, within 100000 hours, not have changed so as to show susceptibility tointercrystalline corrosion.

2) Not to be used for tubes manufactured by hot working or subjected to further processing.

3) To be used for tubes manufactured by hot working or subjected to further processing.

4) Only for wall thicknesses not exceeding 6 mm.

Table 5. Guldeline data for the heat treatment durlng fabrlcation and further processing of tubes and guldeline data for hot working as part of further processing

Steel grade Heat treatment during fabrication
and further processing of tubes
Hot working during further processing
Symbol Material
number
Recrysta llzation or
solution nneaing temperature
Type of cooling Temperature
Type of cooling
Ferritic steels
x6CrTi 12 1.4512 750 to 850 Air, water 1100 to 800 Air
c6CrAl 13 1.4002 750 to 850 Furnace, air
x10Cr 13 1.4008 750 to 850 Furnace, air
x6Cr 17 1.4018 750 to 850 Air, water
x6CrTi 17 1.4510 750 to 850 Air, water
Austenitic steels
X5CrNi 1810
X2CrNi 1911
x2CrNi 1810
1.4301
1.4308
1.4311
1000 to 1080 1) Quenching in water,
air 2)
1150 to 750 Air
x6CrNiTi 1810
x6CrNiNb 1810
x5CrNiMo 17 122
x2CrNiMo 17132
x6CrNiMoTi 17 122
1.4541
1.4550
1.4401
1.4404
1.4571
1020 to 1100 1)
x2CrNiMoN 17 133 1.4429 1040 to 1120 1)
x2CrNiMo 16 143
x5CrNiMo 17 133
1.4435
1.4436
1020 to 1100 1)
x2CrNiMoN 17 135 1.4439 1040 to 1120 1)

1) When heat treatment forms part of further processing of the product, an altempt shall be made to achieve the lower calues of the ange specified for solution annealing. If hot working has been carried out at a temperature of at least 850∩ or if the product has been cold worked, te temperature of renewed solution annealling may be 20 K less than the lower limit for solution annealing.

2) If the cooling is sufficiently rapid.

.8. Type of condition, appearance of surfact

.8.1. The tubes shall be supplied in one of the conditions listed in table 6.

The selection of the type of condition is left to the manufacturer's discretion.

Table 6. Types of condition of tubes

Symbol Type of condition Surface finish Notes
c1 Hot worked, heat treated 1),
descaled
Metallically clean  
c2 Hot worked, heat treated 1),
pickled
f Mechanically or chemically
descaled, cold worked,
not heat treated
Metallically bright-drawn.
much smoother thatn for
conditions c1 and c2
Cold working without subsequent heat treatment modifies the properties depending on the degree of working; this applies in particular to austenitic steel tubes.
g Cold worked, heat treated,
not descaled
Scaled Suitable only for components which will be descaled or worked.
h Clod worked, heat treated and
pickled
Metallically bright-pickled,
smoother than for
condition c2
 
m Cold worked and free from
scale, heat treated
Metallically bright-annealed,
smoother than for condition h.
n1 Cold redrawn tubes free from scale (polished-drawn), not heat treated Metallically polished-drawn, smoother than for condition h or m Tubes complying with this condition are somewhat harder than those of condition h or m and their mechanical properties are modified. These tubes are especially sultable for grinding and polishing.
n2 Cold redrawn (polished-drawn),
bright heat treated
Metallically bright-annealed,
smoother than for condition
h or m
Especially suitable for grinding and polishing.
o Ground Metallically bright-ground; the type and degree of grinding shall be agreed at the time of ordering. Conditions h, m or n2 are generally used
as starting condition 2).
p Polished Metallically bright-ground; the type and degree of grinding shall be agreed at the time of ordering.

1) See also subclause 5.2.

2) The order shall specify whether griniding or polishing is to be internal or external. or internal and external.

.8.2. The tubes shall have an inside and outside surface consistent with the manufacturing process used.

.8.3. Slight irregularities in the surface resulting from the manufacturing process, such as raised or depressed areas or shallow grooves are permitted, except for condition P(polished), as long as the remaining wall thickness fulfils the requirements specified in subclause 5.10 and the function of the tubes is not impaired.

.8.4. Proper removal of surface defects using appropriate means (e.g. grinding) is permitted as long as the remaining wall thickness fufils the requirements specified in subclause 5.10.

.9. Leak tightness

The stainless steel pipe shall remain leaktight when testedes specified in subclause 6.5.5.

.10. Dimensions, masses per unit length and permissible deviations

DIN 2462 Part1 shall apply for the dimensions and masses per unit length of tubes and for permissible deviations.

DIN 11850 shall apply for tubes intended for use in the food industry. The order shall follow the pattern of the sample order given in that standard.

.11. Physical properties

Reference is made to volume 10 of the Stahleisen-Sonderberichte (Iron and steel special reports)(see the "Stanoards and other documents referred to clause) for guideline data on the physical properties of the steels conforming to the requirements of this standard.

As the symbols or the steel grades differ from those specified in DIN 17 440. December 1972 edition, following the specifications for the chemical composition, and in ccordance with DIN 17 440. July 1985 edition, a compilation of the material numbers, which have not changed, and the previous and new symbols is given below in tabular form. It shall be noted that the symbols used in DIN 17 440. December 1972 edition. may still be used during the period of validity of this standard.

Material number Previous symbol from DIN 17 440.
December 1972 edition
New symbol
1.4002 X7CrAl 13 X6CrAl 13
1.4006 X10Cr 13 X10Cr 13
1.4016 X8Cr 17 X6Cr 17
1.4301 X5CrNi 189 X5CrNi 1810
1.4306 X2CrNi 189 X2CrNi 1911
1.4311 X2CrNiN 1810 X2CrNiN 1810
1.4401 X5CrNiMo 1810 X5CrNiMo 17 122
1.4404 X2CrNiMo 1810 X2CrNiMo 17 132
1.4429 X2CrNiMoN 1813 X2CrNiMoN 17 133
1.4435 X2CrNiMo 1812 X2CrNiMo 18 143
1.4436 X5CrNiMo 1812 X5CrNiMo 17 133
1.4439 1) X3CrNiMoN 17 135 X2CrNiMoN 17 135
1.4510 X8CRtI 17 X6CrTi 17
1.4512 1) X5CrTi 12 1) X6CrTi 12
1.4541 X10CrNiTi 189 X6CrNiTi 1810
1.4550 X10CrNiNb 189 X6CrNiNb 1810
1.4571 X10CrNiMoTi 1810 X6CrNiMoTi 17 122
1) Not included in DIN 17 440. December 1972 edition.

JIS Number and Corrensponding Foreign Standards

<
JIS ASTM BS DIN NF

Std No

Grade

T

Std
No.

Grade

T

Std No

Grade

T

Std No

Grade

T

Std No

Grade

Std
No

G34
63
A213 TP304 SUS 3605 304s18 SUS 2462 X5CrNi189 SUS A49-230 TUZ6CN 18.09 260
4/2
SUS A249 TP304 SUS " 304S25 SUS 2463 X5CrNi189 SUS
304TB SUS A269 TP304 SUS 3606 LWHT304S22 SUS
A623 TP304 SUS 3606 LWCF304S22 SUS
A688 TP304 SUS " LWBC304S25 SUS
SUS A213 TP304H SUS 3059 CFS304S59 SUS 260
4/2
304HTB SUS A249 TP304H SUS 3606 304S59 SUS

SUS
A213 TP304L SUS 3605 304S14 SUS 2462 X2CrNi189 SUS A49-207 TSZ2CN 18.10 260
4/2
304LTB SUS A249 TP304L SUS " 304S22 SUS 2463 X2CrNi189 SUS " TSZ2CN 18.10
A269 TP304L SUS 3606 LWHT304S22 SUS A49-230 TSZ2CN 18.10
A632 TP304L SUS " LWCF304S22 SUS
A688 TP304L SUS " LWBC304S22 SUS
" CFS304S22 SUS
SUS
309TB SUS
SUS
309STB SUS A213 TP309S SUS
SUS 260
4/2
310TB SUS A632 TP310 SUS
SUS
310STB SUS A213 TP310S SUS

SUS
A213 TP316 SUS 2462 X5CrNiMo 1810 SUS A49-230 TUZ6CN 18.09 260
4/2
316TB SUS A249 TP316 SUS 3605 316S18 SUS 2463 X5CrNiMo 1810 SUS
A269 TP316 SUS " X5CrNiMo 1812
A632 TP316 SUS 3606 LWHT316S25 SUS 17455 X5CrNiMo 17122
A688 TP316 SUS " LWCF316S25 SUS 17456 X2CrNiMo 17132
" LWBC316S25 SUS 17457 X5CrNiMo 17122
" CFS316S25 SUS 17458 X2CrNiMo 17132
" LWHT316S30 SUS
" LWCF316S30 SUS
" LWBC316S30 SUS
" CFS316S30 SUS
SUS A213 TP316H SUS 3059 CFS316S59 SUS 17455 X5CrNiMo 17122 260
4/2
316HTB SUS A249 TP316H SUS 17456 "
SUS A213 TP316L SUS 3605 316S14 SUS 2462 X2CrNiMo 1810 SUS 260
4/2
316LTB SUS A249 TP316L SUS " 316S22 SUS X2CrNiMo 1812 SUS "
A269 TP316L SUS 3606 LWHT316S24 SUS 2463 X2CrNiMo 1810 SUS
A632 TP316L SUS " LWCF316S24 SUS X2CrNiMo 1812 SUS
A688 TP316L SUS " LWBC316S24 SUS 17457 X5CrNi 17122
" CFS346S24 SUS 17458
" LWHT316S29 SUS
" LWCF31^S29 SUS
" LWBC316S29 SUS
" CFS316S29 SUS
SUS A249 TP317 SUS
317TB SUS A632 TP317 SUS
SUS A249 TP317 SUS
317LTB SUS
A213 TP321 SUS 3605 321S18 SUS 2462 X10CrNi Ti89 SUS A49-230 TUZ6CNT 18.10 260
4/2
321TB SUS A249 TP321 SUS " 321S22 SUS 2463 X10CrNi Ti189 SUS
A269 TP321 SUS 3606 LWHT321S22 SUS 17457
A632 TP321 SUS " LWCF321S22 SUS 17458 X6CrNiTi 1810
" LWBC321S22 SUS
" CFS321S22
SUS A213 TP321 SUS 3059 CFS321S59 SUS
321HTB SUS A249 TP321H SUS 3605 321S59 SUS
A213 TP347 SUS 3605 347S18 SUS 2462 X10CrNi Nb189 SUS A49-207 TSZ6CNNb 18.10 260
4/2
347TB SUS A249 TP347 SUS " 347S17 SUS 17457 " TUZ6CNNb 18.10
A269 TP347 SUS 3606 LWHT347S17 SUS 17458 X6CrNiNb 1810
A632 TP347 SUS " LWCF347S17 SUS
3606 LWBC347S17 SUS
3606 CFS317S17 SUS
SUS A213 TP347H SUS 3059 CFS347S17 SUS 260
4/2
347HTB SUS A249 TP347H SUS 3605 347S59 SUS
SUS
XM15JITB SUS
SUS
329J2LTB SUS
SUS A268 TP405 SUS
405TB SUS
SUS A268 TP409
409TB SUS
SUS A268 TP410 SUS 2462 X10Cr13 SUS
410TB SUS
SUS
410TiTB SUS
SUS A268 TP430 SUS 2462 X8Cr7 SUS
430TB SUS
SUS A213 18Cr2Mo SUS
444TB SUS
SUS
XM8TB SUS
SUS A731 18Cr2Mo SUS
XM27TB SUS " TP439 SUS

TubingChina.com All Rights Reserved

Directory | Standard | Heat | Heat Exchanger | Temperature | Pressure | Corrosion | Hardness | Surface | Properties | Select Stainless Steel | Contact US

Useful Tools:

Stainless Steel Weight Calculator
Metals Weight Calculator
Nickel Alloy Weight Calculator
Copper Brass Alloy Weight Calculator
Copper Brass Alloy Sheet Plate Weight Calculator
Sheet Plate Weight Calculator
Hardness Conversion Calculator
Hardness Conversion Chart
Rockwell Brinell Vickers Shore Hardness Conversion Chart
Conversion Calculator
Length Weight Temperature Volume Pressure Calculater
Pipe Working Pressure Calculator
Pressure Conversion Converter
Round Bar Size Calculator
Gauge Sizes
Sheet Metal Gauge
Pipe Schedule
Nominal Pipe Size
ANSI Pipe Chart
Inch to mm Chart
Stainless Steel Pipe Sizes
Stainless Steel Tubing Sizes Chart
Stainless Steel L H Grade
Stainless Steel Density
Conversion of Stainless Steel
Nickel Alloy Grades Comparison Material Grade Chart Carbon Steel
Structural Steel Comparison Chart



Main Products:

BA Tube | AP Tube
Condenser Tubes Tubing
Stainless Steel Reheater Tube Superheater Tubes
Stainless Steel U bend Tube
Nickel Alloy U bend Tubes
Copper Alloy U Bend Tubes
Heat Exchanger Tube
Super Duplex Pipe
Nickel Alloy Tube
Brass Alloy Tubing
Copper Nickel Alloys Tubes
Stainless Steel Hollow Tube
Stainless Steel Oval Tubing
Stainless Steel Square Tubing
Stainless Steel Rectangular Tubing
Stainless Steel Capillary Tube
Duplex Stainless Steel Pipe
Seamless Stainless Steel Tubing
Corrugated Stainless Steel Tubing
Stainless Steel Twisted Tube
Polishing Stainless Steel Tubing
Stainless Steel Aircraft Tube
Stainless Steel Hydraulic Tubing
Stainless Steel Instrumentation Tubing
Stainless Steel Angle Iron Bar
Stainless Steel Mechanical Tube
Bright Annealing Stainless Tube
Heat resistant Stainless Steel
Stainless Steel Welded Pipe
Extruded Serrated Finned Tubes Integral Finned Tubes / Extruded Aluminum Finned Tubes
Brass Alloys Copper Nickel Alloy Integral Low Finned Tubes
HFW High Frequency Welded Helical Spiral Serrated Finned Tubes
Corrosion Resistant Stainless Steel
Corrosion Resistance Stainless Steel

Stainless Steel Tubing Pipe

304 Stainless Steel Pipe
304L Stainless Steel Pipe
304H Stainless Steel Pipe
304/304L Stainless Steel Tubing
309S Stainless Steel Pipe
310S Stainless Steel Pipe
316L Stainless Steel Tubing
316Ti Stainless Steel Tube
317L Stainless Steel Pipe
321 321H Stainless Steel
347 347H Stainless Steel
904L N08094 Seamless Tubes
17-4 PH 630 UNS S17400 Stainless Steel
253MA S30815 Stainless Steel Tube
S31254 254 SMO Pipe
S31803 Stainless Steel
2205 Duplex Pipe Tubing
S32101 Stainless Steel
S32304 Stainless Steel
2507 Super Duplex Pipe
S32750 Super Duplex Pipe
S32760 Super Duplex Steel
1.4462 Stainless Steel Pipe
ASTM A213 | ASTM A269
ASTM A312 | ASTM A511
ASTM A789 | ASTM A790
ASTM B161 / ASME SB 161 | ASTM B111
EN 10216-5
ASTM A789 ASME SA 789 S31803 S32205 S32101 S32750 S32760 S32304 S31500 S31260 Seamless Tubes
EN 10216-5 1.4462 1.4362 1.4162 1.4410 1.4501 Seamless Tubes
Nickel Alloy Tubing:

UNS N08020 Alloy 20 Tubing
UNS N02200 Alloy 200 Tube
UNS N02201 Alloy 201 Pipe
UNS N04400 Monel 400 Tubing
N06600 Inconel 600 Tube
N06601 Inconel 601 Tubing
N06625 Inconel 625 Tubes
N08800 Incoloy 800 Tube
N08810 Incoloy 800H Tube
N08811 Incoloy 800HT Tubing
UNS N08825 Incoloy 825 Pipe
ASTM B622 N10276 C276 Tubing
ASTM B622 N06022 Hastelloy C-22 Alloy Tubes
C28000 Brass Seamless Tubes C44300 Brass Seamless Tubes
C68700 Brass Seamless Tubes
C70600 Copper Nickel Tubes
C71500 Copper Nickel Tubes
DIN 2391 Seamless Precision Steel Tubes
EN 10305-1 E215 E235 E355 Seamless Precision Steel Tube Tubing Tubes
DIN 2393 St28 St34.2 St37.2 St44.2 St52.3 Welded Precision Steel Tubes
EN 10305-2 E195 E235 E355 Welded Cold Drawn Precision Steel Tube