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ASTM A270-03a(2008)e1

(Specification)

Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing

Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing

ABSTRACT
This specification covers grades of seamless, welded, and heavily cold worked austenitic and ferritic/austenitic stainless steel sanitary tubing. Seamless tubes shall be manufactured by a process that does not involve welding at any stage. Welded tubes shall be made using an automated welding process with no addition of filler metal during the welding process. Heavily cold worked tubes shall be made by applying cold working of not less than 35% reduction of thickness of both wall and weld to a welded tube prior to the final anneal. No filler shall be used in making the weld. All material shall be furnished in the heat-treated condition. A chemical analysis of either one length of flat-rolled stock or one tube shall be made for each heat. Each tube shall be subjected to mechanical tests like reverse flattening test, hydrostatic test or nondestructive electric test. The following surface finishes may be specified: mill finish, mechanically polished surface finish, finish No. 80, finish No. 120, finish No. 180, finish No. 240, electropolished finish, and maximum roughness average surface finish. Longitudinally polished finish shall be performed on the inside surface only while a circumferential polished finish shall be done on either the inside surface, outside surface, or both.
SCOPE
1.1 This specification covers grades of seamless, welded, and heavily cold worked welded austenitic and ferritic/austenitic stainless steel sanitary tubing intended for use in the dairy and food industry and having special surface finishes. Pharmaceutical quality may be requested, as a supplementary requirement.
1.2 This specification covers tubes in sizes up to and including 12 in. (304.8 mm) in outside diameter.  
1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.
1.4 Optional supplementary requirements are provided, and when one or more of these are desired, each shall be so stated in the order.

General Information

Status
Historical
Publication Date
30-Sep-2008
ICS
23.040.10 - Iron and steel pipes
Technical Committee
A01 - Steel, Stainless Steel and Related Alloys
Drafting Committee
A01.10 - Stainless and Alloy Steel Tubular Products
Current Stage
Ref Project

Relations

Replaces
ASTM A270-03a - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing
Effective Date
01-Oct-2008
Replaced By
ASTM A270/A270M-10 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing
Effective Date
01-Apr-2010

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ASTM A270-03a(2008)e1 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary TubingASTM A270-03a(2008)e1 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing
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REDLINE ASTM A270-03a(2008)e1 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary TubingREDLINE ASTM A270-03a(2008)e1 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing
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REDLINE ASTM A270-03a(2008)e1 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary TubingREDLINE ASTM A270-03a(2008)e1 - Standard Specification for Seamless and Welded Austenitic Stainless Steel Sanitary Tubing
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Standards Content (Sample)


NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information.
´1
Designation: A270 – 03a (Reapproved 2008)
Standard Specification for
Seamless and Welded Austenitic and Ferritic/Austenitic
Stainless Steel Sanitary Tubing
This standard is issued under the fixed designation A270; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the Department of Defense.
´ NOTE—The units statement in 1.3 was corrected editorially in October 2008.
1. Scope E527 Practice for Numbering Metals and Alloys in the
Unified Numbering System (UNS)
1.1 This specification covers grades of seamless, welded,
2.2 ASME Standard:
and heavily cold worked welded austenitic and ferritic/
B46.1 Surface Texture (Surface Roughness, Waviness, and
austenitic stainless steel sanitary tubing intended for use in the
Lay)
dairy and food industry and having special surface finishes.
2.3 ASME Boiler and Pressure Vessel Code:
Pharmaceutical quality may be requested, as a supplementary
Section VIII Pressure Vessels
requirement.
2.4 Other Standard:
1.2 This specification covers tubes in sizes up to and
SAE J1086 Practice for Numbering Metals and Alloys
including 12 in. (304.8 mm) in outside diameter.
(UNS)
1.3 The values stated in inch-pound units are to be regarded
as standard. The values given in parentheses are mathematical
3. Terminology
conversions to SI units that are provided for information only
3.1 Definition:
and are not considered standard.
3.1.1 roughness average, Ra, n—arithmetic average surface
1.4 Optional supplementary requirements are provided, and
roughness normally reported in microinches or microns; a
when one or more of these are desired, each shall be so stated
measurement of surface roughness usually performed by mov-
in the order.
ing a stylus in a straight line along the surface, although other
2. Referenced Documents methods may be used.
2.1 ASTM Standards:
4. Ordering Information
A262 Practices for Detecting Susceptibility to Intergranular
4.1 It is the responsibility of the purchaser to specify all
Attack in Austenitic Stainless Steels
requirements that are necessary for material ordered under this
A480/A480M Specification for General Requirements for
specification. Such requirements may include, but are not
Flat-Rolled Stainless and Heat-Resisting Steel Plate,
limited to, the following:
Sheet, and Strip
4.1.1 Quantity (feet, metres, or number of lengths),
A923 Test Methods for Detecting Detrimental Intermetallic
4.1.2 Name of material (austenitic steel tube),
Phase in Duplex Austenitic/Ferritic Stainless Steels
4.1.3 Process seamless (SML), welded (WLD), or heavily
A967 Specification for Chemical Passivation Treatments
cold worked (HCW),
for Stainless Steel Parts
4.1.4 Size (outside diameter and average wall thickness),
A1016/A1016M Specification for General Requirements
4.1.5 Length (specific or random),
for Ferritic Alloy Steel, Austenitic Alloy Steel, and Stain-
4.1.6 Surface finish (Section 13),
less Steel Tubes
4.1.7 Optional requirements (product analysis, see Section
9; hydrostatic or nondestructive electric test, see Section11).
This specification is under the jurisdiction of ASTM CommitteeA01 on Steel,
4.1.8 Test report required (Certification Section of Specifi-
Stainless Steel and Related Alloys and is the direct responsibility of Subcommittee
cation A1016/A1016M),
A01.10 on Stainless and Alloy Steel Tubular Products.
Current edition approved Oct. 1, 2008. Published January 2009. Originally
approved in 1944. Last previous edition approved in 2003 as A270–03a. DOI:
10.1520/A0270-03AR08E01. Available from American Society of Mechanical Engineers (ASME), ASME
For referenced ASTM standards, visit the ASTM website, www.astm.org, or International Headquarters, Three Park Ave., New York, NY 10016-5990, http://
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM www.asme.org.
Standards volume information, refer to the standard’s Document Summary page on Available from Society of Automotive Engineers (SAE), 400 Commonwealth
the ASTM website. Dr., Warrendale, PA 15096-0001, http://www.sae.org.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
´1
A270 – 03a (2008)
4.1.9 Specification designation, uctanalysistoleranceisnotapplicabletothecarboncontentfor
4.1.10 Special requirements, and material with a specified maximum carbon of 0.04 % or less.
4.2 Any supplementary requirements. 9.2 If the original test for product analysis fails, retests of
two additional lengths of flat-rolled stock or tubes shall be
5. General Requirements
made. Both retests for the elements in question shall meet the
5.1 Material furnished under this specification shall con-
requirements of the specification; otherwise all remaining
form to the applicable requirements of the current edition of material in the heat or lot (Note 1) shall be rejected or, at the
Specification A1016/A1016M, unless otherwise provided
option of the producer, each length of flat-rolled stock or tube
herein. may be individually tested for acceptance. Lengths of flat
rolled stock or tubes that do not meet the requirements of the
6. Manufacture
specification shall be rejected.
6.1 Thetubesshallbemanufacturedbyoneofthefollowing
10. Mechanical Tests Required
processes:
6.1.1 Seamless (SML) tubes shall be made by a process that 10.1 Reverse Flattening Test—For welded tubes, one re-
does not involve welding at any stage. verse flattening test shall be made on a specimen from each
6.1.2 Welded (WLD) tubes shall be made using an auto- 1500 ft (457 m) of finished tubing.
mated welding process with no addition of filler metal during
11. Hydrostatic or Nondestructive Electric Test
the welding process.
6.1.3 Heavily cold worked (HCW) tubes shall be made by 11.1 Each tube shall be subjected to the nondestructive
electric test or the hydrostatic test. The type of test to be used
applying cold working of not less than 35 % reduction of
thickness of both wall and weld to a welded tube prior to the shall be at the option of the manufacturer, unless otherwise
specified in the purchase order.
final anneal. No filler shall be used in making the weld. Prior
to cold working, the weld shall be 100 % radiographically
12. Permissible Variations in Dimensions
inspectedinaccordancewiththerequirementsofASMEBoiler
12.1 The following variations in dimensions shall apply:
and Pressure Vessel Code Section VIII, Division 1, latest
revision, Paragraph UW 51. 12.1.1 For tubes with a specified wall thickness of 0.049 in.
(1.24 mm) and greater, variations in outside diameter from
6.2 At the manufacturer’s option, tubing may be furnished
either hot finished or cold finished. those specified shall not exceed the amount prescribed inTable
2. For tubes with a specified wall thickness less than 0.049 in.
7. Heat Treatment
(1.24 mm), the diameter tolerances shall be a matter for
7.1 All material shall be furnished in the heat-treated agreement by the manufacturer and the purchaser.
condition. The heat treatment procedure, except for S31803, 12.1.2 When tubing >4 in. (101.6 mm) outside diameter is
S32003, S32205, S32750, N08926 and N08367, shall consist ordered, additional ovality may be required for thin wall
of heating the material to a minimum temperature of 1900 °F tubing. Thin wall tubing applies when the specified wall is less
(1040 °C) and quenching in water or rapid cooling by other than0.150in.(3.81mm).Whenthinwalltubingisordered,the
means. maximum and minimum outside diameter at any cross section
7.2 N08926 shall be heat-treated to a minimum temperature shall deviate from the specified outside diameter by no more
of 2010 °F (1100 °C) followed by quenching in water or than twice the permissible variation in outside diameter given
rapidly cooling by other means. UNS N08367 should be in Table 2; however, the mean diameter at that cross section
must still be within the given permissible variation.
solution annealed from 2025 °F (1107 °C) minimum followed
by rapid quenching. 12.1.3 The wall thickness at any point shall not vary more
than 12.5 %, from the specified wall thickness.
7.3 S31803 and S32205 shall be heat-treated in a tempera-
ture range of 1870 °F (1020 °C) to 2010 °F (1100 °C) followed 12.1.4 Variations in length shall meet the requirements in
Table 2 except when the Pharmaceutical Quality Tubing
by quenching in water or rapidly cooling by other means.
7.4 S32750 shall be heat-treated in a temperature range of (Supplementary Requirement S2) is specified.
1880 °F (1025 °C) to 2060 °F (1125 °C) followed by
13. Surface Finishes
quenching in water or rapidly cooling by other means.
7.5 S32003 shall be heat-treated in a temperature range of 13.1 The following surface finishes may be specified:
13.1.1 Mill Finish—Afinishwithoutadditionalpolishingor
1850 °F (1010 °C) to 2010 °F (1100 °C).
operations intended to smooth the surface.
8. Chemical Composition
13.1.2 Mechanically Polished Surface Finish—The pur-
8.1 An analysis of either one length of flat-rolled stock or chaser may specify one of the following finish numbers for a
mechanically polished surface:
one tube shall be made for each heat. The chemical composi-
tionthusdeterminedshallconformtotherequirementsgivenin 13.1.2.1 Finish No. 80—A ground finish produced by pol-
Table 1. ishing a tube with an abrasive media impregnated with No. 80
grit.
9. ProductAnalysis
13.1.2.2 Finish No. 120—A ground finish produced by
9.1 When requested by the purchaser, product analysis polishing a tube with an abrasive media impregnated with No.
tolerance in SpecificationA480/A480M shall apply. The prod- 120 grit.
´1
A270 – 03a (2008)
TABLE 1 Chemical Requirements
Element Grade TP 304 TP 304L . . . TP 316 TP 316L . . . . . . . . . . . . . . . 2003
UNS S30400 S30403 S31254 S31600 S31603 N08926 N08367 S31803 S32205 S32750 S32003
A
Designation
Composition, %
B B
Carbon, max 0.08 0.035 0.020 0.08 0.035 0.020 0.030 0.030 0.030 0.030 0.030 max
Manganese, 2.00 2.00 1.00 2.00 2.00 2.00 2.00 2.00 2.00 1.20 2.00 max
max
Phosphorus, 0.045 0.045 0.030 0.045 0.045 0.030 0.040 0.030 0.030 0.035 0.030
max
Sulfur, max 0.030 0.030 0.010 0.030 0.030 0.010 0.030 0.020 0.020 0.020
...


This document is not anASTM standard and is intended only to provide the user of anASTM standard an indication of what changes have been made to the previous version. Because
it may not be technically possible to adequately depict all changes accurately, ASTM recommends that users consult prior editions as appropriate. In all cases only the current version
of the standard as published by ASTM is to be considered the official document.
´1
Designation:A270–03a Designation: A 270 – 03a (Reapproved 2008)
Standard Specification for
Seamless and Welded Austenitic and Ferritic/Austenitic
Stainless Steel Sanitary Tubing
This standard is issued under the fixed designation A 270; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the Department of Defense.
´ NOTE—The units statement in 1.3 was corrected editorially in October 2008.
1. Scope *
1.1 This specification covers grades of seamless, welded, and heavily cold worked welded austenitic and ferritic/austenitic
stainless steel sanitary tubing intended for use in the dairy and food industry and having special surface finishes. Pharmaceutical
quality may be requested, as a supplementary requirement.
1.2 This specification covers tubes in sizes up to and including 12 in. (304.8 mm) in outside diameter.
1.3The values stated in inch-pound units are to be regarded as the standard.
1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical
conversions to SI units that are provided for information only and are not considered standard.
1.4 Optional supplementary requirements are provided, and when one or more of these are desired, each shall be so stated in
the order.
2. Referenced Documents
2.1 ASTM Standards:
A 262 Practices for Detecting Susceptibility to Intergranular Attack in Austenitic Stainless Steels
A 480/A 480M Specification for General Requirements for Flat-Rolled Stainless and Heat-Resisting Steel Plate, Sheet, and
Strip
A 923 Test Methods for Detecting Detrimental Intermetallic Phase in Wrought Duplex Austenitic/Ferritic Stainless Steels
A 967 Specification for Chemical Passivation Treatments for Stainless Steel Parts
A 1016/A 1016M Specification for General Requirements for Ferritic Alloy Steel, Austenitic Alloy Steel, and Stainless Steel
Tubes
E 527 Practice for Numbering Metals andAlloys (UNS) Practice for Numbering Metals andAlloys in the Unified Numbering
System (UNS)
2.2 ASME Standard:
B46.1 Surface Texture (Surface Roughness, Waviness, and Lay)
2.3 ASME Boiler and Pressure Vessel Code:
Section VIII Pressure Vessels
2.4 Other Standard:
SAE J1086 Practice for Numbering Metals and Alloys (UNS)
3. Terminology
3.1 Definition:
3.1.1 roughness average, Ra, n—arithmetic average surface roughness normally reported in microinches or microns; a
This specification is under the jurisdiction ofASTM CommitteeA01 on Steel, Stainless Steel and RelatedAlloys,Alloys and is the direct responsibility of Subcommittee
A01.10 on Stainless and Alloy Steel Tubular Products.
Current edition approved Dec.Oct. 1, 2003.2008. Published January 2004.2009. Originally approved in 1944. Last previous edition approved in 2003 as A 270–03a.
For referencedASTM standards, visit theASTM website, www.astm.org, or contactASTM Customer Service at service@astm.org. For Annual Book of ASTM Standards
volume information, refer to the standard’s Document Summary page on the ASTM website.
Available from ASME International, Three Park Avenue, New York, NY 10016–5990.
Available from American Society of Mechanical Engineers (ASME), ASME International Headquarters, Three Park Ave., New York, NY 10016-5990, http://
www.asme.org.
Available from Society of Automotive Engineers (SAE), 400 Commonwealth Dr., Warrendale, PA 15096-0001, http://www.sae.org.
*ASummary of Changes section appears at the end of this standard.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
´1
A 270 – 03a (2008)
measurement of surface roughness usually performed by moving a stylus in a straight line along the surface, although other
methods may be used.
4. Ordering Information
4.1 It is the responsibility of the purchaser to specify all requirements that are necessary for material ordered under this
specification. Such requirements may include, but are not limited to, the following:
4.1.1 Quantity (feet, metres, or number of lengths),
4.1.2 Name of material (austenitic steel tube),
4.1.3 Process seamless (SML), welded (WLD), or heavily cold worked (HCW),
4.1.4 Size (outside diameter and average wall thickness),
4.1.5 Length (specific or random),
4.1.6 Surface finish (Section 13),
4.1.7 Optional requirements (product analysis, see Section 9; hydrostatic or nondestructive electric test, see Section11).
4.1.8 Test report required (Certification Section of Specification A 1016/A 1016M),
4.1.9 Specification designation,
4.1.10 Special requirements, and
4.2 Any supplementary requirements.
5. General Requirements
5.1 Material furnished under this specification shall conform to the applicable requirements of the current edition of
Specification A 1016/A 1016M, unless otherwise provided herein.
6. Manufacture
6.1 The tubes shall be manufactured by one of the following processes:
6.1.1 Seamless (SML) tubes shall be made by a process that does not involve welding at any stage.
6.1.2 Welded (WLD) tubes shall be made using an automated welding process with no addition of filler metal during the
welding process.
6.1.3 Heavily cold worked (HCW) tubes shall be made by applying cold working of not less than 35 % reduction of thickness
of both wall and weld to a welded tube prior to the final anneal. No filler shall be used in making the weld. Prior to cold working,
theweldshallbe100 %radiographicallyinspectedinaccordancewiththerequirementsofASMEBoilerandPressureVesselCode
Section VIII, Division 1, latest revision, Paragraph UW 51.
6.2 At the manufacturer’s option, tubing may be furnished either hot finished or cold finished.
7. Heat Treatment
7.1 All material shall be furnished in the heat-treated condition. The heat treatment procedure, except for S31803, S32003,
S32205, S32750, N08926 and N08367, shall consist of heating the material to a minimum temperature of 1900 °F (1040 °C) and
quenching in water or rapid cooling by other means.
7.2 N08926 shall be heat-treated to a minimum temperature of 2010°F [1100°C] 2010 °F (1100 °C) followed by quenching in
water or rapidly cooling by other means. UNS N08367 should be solution annealed from 2025°F [1107°C] 2025 °F (1107 °C)
minimum followed by rapid quenching.
7.3 S31803 and S32205 shall be heat-treated in a temperature range of 1870°F [1020°C] 1870 °F (1020 °C) to 2010°F [1100°C]
2010 °F (1100 °C) followed by quenching in water or rapidly cooling by other means.
7.4 S32750 shall be heat-treated in a temperature range of 1880°F [1025°C] 1880 °F (1025 °C) to 2060°F [1125°C]2060 °F
(1125 °C) followed by quenching in water or rapidly cooling by other means.
7.5 S32003 shall be heat-treated in a temperature range of 1850 °F (1010 °C) to 2010 °F (1100 °C).
8. Chemical Composition
8.1 An analysis of either one length of flat-rolled stock or one tube shall be made for each heat. The chemical composition thus
determined shall conform to the requirements given in Table 1.
9. ProductAnalysis
9.1 When requested by the purchaser, product analysis tolerance in Specification A 480/A 480M shall apply. The product
analysis tolerance is not applicable to the carbon content for material with a specified maximum carbon of 0.04 % or less.
9.2 Iftheoriginaltestforproductanalysisfails,retestsoftwoadditionallengthsofflat-rolledstockortubesshallbemade.Both
retests for the elements in question shall meet the requirements of the specification; otherwise all remaining material in the heat
or lot (Note 1) shall be rejected or, at the option of the producer, each length of flat-rolled stock or tube may be individually tested
for acceptance. Lengths of flat rolled stock or tubes that do not meet the requirements of the specification shall be rejected.
10. Mechanical Tests Required
10.1 Reverse Flattening Test—Forweldedtubes,onereverseflatteningtestshallbemadeonaspecimenfromeach1500ft(457
m) of finished tubing.
´1
A 270 – 03a (2008)
TABLE 1 Chemical Requirements
Element Grade TP 304 TP 304L . . . TP 316 TP 316L . . . . . . . . . . . . . . . 2003
UNS S30400 S30403 S31254 S31600 S31603 N08926 N08367 S31803 S32205 S32750 S32003
A
Designation
Composition, %
B B
Carbon, max 0.08 0.035 0.020 0.08 0.035 0.020 0.030 0.030 0.030 0.030 0.030 max
Manganese, 2.00 2.00 1.00 2.00 2.00 2.00 2.00 2.00 2.00 1.20 2.00 max
max
Phosphorus, 0.045 0.045 0.030 0.045 0.045 0.030 0.040 0.030 0.030 0.035 0.030
max
Sulfur, max 0.030 0.030 0.010 0.030 0.030 0.010 0.030 0.020 0.020 0.020 0.020 max
Silicon, max 1.00 1.00 0.80 1.00 1.00 0.50 1.00 1.00 1.00 0.80 1.00 max
Nickel 8.0–11.0 8.0–12.0 17.5–18.5 10.0–14.0 10.0–14.0 24.0–26.0 23.5–25.5 4.5–6.5 4.5–6.5 6.0–8.0 3.0–4.0
Chromium 18.0–20.0 18.0–20.0 19.5–20.5 16.0–18.0 16.0–18.0 19.0–21.0 20.0–22.0 21.0–23.0 22.0–23.0 24.0–26.0 19.5–22.5
Molybdenum . . . . . . 6.0–6.5 2.00–3.00 2.00–3.00 6.0–7.0 6.0–7.0 2.5–3.5 3.0–3.5 3.0–5.0 1.5–2.0
C
Nitrogen . . . . . . 0.18–0.22 . . . . . . 0.15–0.25 0.18–0.25 0.08–0.20 0.14–0.20 0.24–0.32 0.14–0.20
Copper . . . . . . 0.50–1.00 . . . . . . 0.50–1.5 0.75 max . . 0.50 max
A
New designation established in accordance with Practice E 527 and SAE J 1086.
B
For small diameter or thin walls or both, where many drawing passes are required, a carbon maximum of 0.040 % is necessary in grades TP304L and TP316L. Small outside diameter tubes are defined as those
less than 0.500 in. (12.7 mm) in outside diameter and light wall tubes as those less than 0.049 in. (1.24 mm) in average wall thickness (0.044 in. (1.12 mm) in minimum wall thickness).
C
The method of analysis for nitrogen shall be a matter of agreement between the purchaser and manufacturer.

´1
A 270 – 03a (2008)
11. Hydrostatic or Nondestructive Electric Test
11.1 Each tube shall be subjected to the nondestructive electric test or the hydrostatic test. The type of test to be used shall be
at the option of the manufacturer, unless otherwise specified in the purchase order.
12. Permissible Variations in Dimensions
12.1 The following variations in dimensions shall apply:
12.1.1 For tubes with a specified wall thickness of 0.049 in. (1.24 mm) and greater, variations in outside diameter from those
specifiedshallnotexceedtheamountprescribedinTable2.Fortubeswithaspecifiedwallthicknesslessthan0.049in.(1.24mm),
the diameter tolerances shall be a matter for agreement by the manufacturer and the purchaser.
12.1.2 Whentubing>4in.(101.6mm)outsidediameterisordered,additionalovalitymayberequiredforthinwalltubing.Thin
wall tubing applies when the specified wall is less than 0.150 in. (3.81 mm). When thin wall tubing is ordered, the maximum and
minimum outside diameter at any cross section shall deviate from the specified outside diameter by no more than twice the
permissible variation in outside diameter given in Table 2; however, the mean diameter at that cross section must still be within
the given permissible variation.
12.1.3 The wall thickness at any point shall not vary more than 12.5 %, from the specified wall thickness.
12.1.4 Variations in length shall meet the requirements in Table 2 except when the Pharmaceutical Quality Tubing
(Supplementary Requirement S2) is specified.
13. Surface Finishes
13.1 The following surface finishes may be specified:
13.1.1 Mill Finish— A finish without additional polishing or operations intended to smooth the surface.
13.1.2 Mechanically Polished Surface Finish—The purchaser may specify one of the following finish numbers for a
mechanically polished surface:
13.1.2.1 Finish No. 80—A ground finish produced by polishing a tube with an abrasive media impregnated with No. 80 grit.
13.1.2.2 Finish No. 120—Aground finish produced by polishing a tube with an abrasive media impregnated with No. 120 grit.
13.1.2.3 Finish No. 180—Aground finish produced by polishing a tube with an abrasive media impregnated with No. 180 grit.
13.1.2.4 Finish No. 240—Aground finish produced by polishing a tube with an abrasive media impregnated with No. 240 grit.
13.1.2.5 Other mechanically polished finishes may be agreed upon between the purchaser and manufacturer.
13.1.3 Electropolished Finish—A bright reflective finish produced by electropolishing. The manufacturer may use other
polishing operations prior to electropolishing.
13.1.4 Maximum Roughness Average (Ra) Surface Finish—The customer may specify a maximum Ra on the inside surface,
outside surface, or both. The measurement of surface roughness shall be in accordance with ASME B46.1.
13.1.4.1 When no agreement is made regarding Ra measurement of longitudinally polished tube, disputes shall be resolved
using measurements made in accordance with ASME B46.1.
13.2 The manufacturer shall select a manufacturing method to produce the specified finish. The operations may or may not
include polishing.
13.2.1 The purchaser may specify the polishing type for either the inside surface, outside surface or both for the final desired
effect.
13.2.1.1 Longitudinally Polished Finish— It is usually performed on the inside surface only.
13.2.1.2 Circumferential (Rotary) Polished Finish—Thiscanbeperformedoneithertheinsidesurface,outsidesurface,orboth.
13.2.1.3 When the surface is finished by circumferential mechanical polishing, the Ra measurement shall be measured in the
longitudinal direction. Roughness measurement of a longitudinal mechanical polished surface shall be a matter of agreement
between the manufacturer and the purchaser.
13.3 Acceptance criteria for minor surface imperfections shall be a matter for agreement by the manufacturer and the purchaser.
13.4 Combinations of the above finishes for internal and external surfaces may be specified. When tubes are polished on one
surface only, the other surface may be the regular mill finish.
TABLE 2 Permissible Variations in Dimensions
Size, Outside Permissible Variations in Outside Permissible Variations in Cut
A
Diameter, Diameter, in. (mm) Length, in. (mm)
in. (mm)
Over Under Over Under
1.000 (25.4) and under 0.005 (0.13) 0.005 (0.13) ⁄8 (3.2) 0
Over 1 (25.4) to 2 (50.8) 0.008 (0.20) 0.008 (0.20) ⁄8 (3.2) 0
Over 2 (50.8) to 3 (76.2) 0.010 (0.25) 0.010 (0.25) ⁄8 (3.2) 0
Over 3 (76.2) to 4 (101.6) 0.015 (0.38) 0.015 (0.38) ⁄8 (3.2) 0
1 3
Over 4 (101.6) to 5 ⁄
...


This document is not anASTM standard and is intended only to provide the user of anASTM standard an indication of what changes have been made to the previous version. Because
it may not be technically possible to adequately depict all changes accurately, ASTM recommends that users consult prior editions as appropriate. In all cases only the current version
of the standard as published by ASTM is to be considered the official document.
´1
Designation:A270–03 Designation: A 270 – 03a (Reapproved 2008)
Standard Specification for
Seamless and Welded Austenitic and Ferritic/Austenitic
Stainless Steel Sanitary Tubing
This standard is issued under the fixed designation A 270; the number immediately following the designation indicates the year of
original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval. A
superscript epsilon (´) indicates an editorial change since the last revision or reapproval.
This standard has been approved for use by agencies of the Department of Defense.
´ NOTE—The units statement in 1.3 was corrected editorially in October 2008.
1. Scope *
1.1 This specification covers grades of seamless, welded, and heavily cold worked welded austenitic and ferritic/austenitic
stainless steel sanitary tubing intended for use in the dairy and food industry and having special surface finishes. Pharmaceutical
quality may be requested, as a supplementary requirement.
1.2 This specification covers tubes in sizes up to and including 12 in. (304.8 mm) in outside diameter.
1.3The values stated in inch-pound units are to be regarded as the standard.
1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical
conversions to SI units that are provided for information only and are not considered standard.
1.4 Optional supplementary requirements are provided, and when one or more of these are desired, each shall be so stated in
the order.
2. Referenced Documents
2.1 ASTM Standards:
A 262 Practices for Detecting Susceptibility to Intergranular Attack in Austenitic Stainless Steels
A 480/A 480M Specification for General Requirements for Flat-Rolled Stainless and Heat-Resisting Steel Plate, Sheet, and
Strip
A 923 Test Methods for Detecting Detrimental Intermetallic Phase in Wrought Duplex Austenitic/Ferritic Stainless Steels
A 967 Specification for Chemical Passivation Treatments for Stainless Steel Parts
A 1016/A 1016M Specification for General Requirements for Ferritic Alloy Steel, Austenitic Alloy Steel, and Stainless Steel
Tubes
E 527 Practice for Numbering Metals andAlloys (UNS) Practice for Numbering Metals andAlloys in the Unified Numbering
System (UNS)
2.2 ASME Standard:
B46.1 Surface Texture (Surface Roughness, Waviness, and Lay)
2.3 ASME Boiler and Pressure Vessel Code:
Section VIII Pressure Vessels
2.4 Other Standard:
SAE J1086 Practice for Numbering Metals and Alloys (UNS)
3. Terminology
3.1 Definition:
3.1.1 roughness average, Ra, n—arithmetic average surface roughness normally reported in microinches or microns; a
This specification is under the jurisdiction ofASTM CommitteeA01 on Steel, Stainless Steel and RelatedAlloys,Alloys and is the direct responsibility of Subcommittee
A01.10 on Stainless and Alloy Steel Tubular Products.
Current edition approved Apr. 10, 2003.Oct. 1, 2008. Published May 2003.January 2009. Originally approved in 1944. Last previous edition approved in 20012003 as
A270–01.A 270–03a.
For referencedASTM standards, visit theASTM website, www.astm.org, or contactASTM Customer Service at service@astm.org. For Annual Book of ASTM Standards
, Vol 01.03.volume information, refer to the standard’s Document Summary page on the ASTM website.
Annual Book of ASTM Standards, Vol 01.01.
Available from American Society of Mechanical Engineers (ASME), ASME International Headquarters, Three Park Ave., New York, NY 10016-5990, http://
www.asme.org.
Available from ASME International, Three Park Avenue, New York, NY 10016–5990.
Available from Society of Automotive Engineers (SAE), 400 Commonwealth Dr., Warrendale, PA 15096-0001, http://www.sae.org.
*ASummary of Changes section appears at the end of this standard.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
´1
A 270 – 03a (2008)
measurement of surface roughness usually performed by moving a stylus in a straight line along the surface, although other
methods may be used.
4. Ordering Information
4.1Orders for material under this specification should include the following, as required, to describe the desired material
adequately:
4.1 It is the responsibility of the purchaser to specify all requirements that are necessary for material ordered under this
specification. Such requirements may include, but are not limited to, the following:
4.1.1 Quantity (feet, metres, or number of lengths),
4.1.2Name of material (seamless or welded tubes),
4.1.3Size (outside diameter and average wall thickness),
4.1.4Length (specific or random),
4.1.5Surface finish (Section
4.1.2 Name of material (austenitic steel tube),
4.1.3 Process seamless (SML), welded (WLD), or heavily cold worked (HCW),
4.1.4 Size (outside diameter and average wall thickness),
4.1.5 Length (specific or random),
4.1.6 Surface finish (Section 13),
4.1.67 Optional requirements (product analysis, see Section 9; hydrostatic or nondestructive electric test, see Section11).
4.1.7Test report required (Certification Section of Specification A1016/A1016M),
4.1.8Specification designation,
4.1.9Special requirements, and
4.1.8 Test report required (Certification Section of Specification A 1016/A 1016M),
4.1.9 Specification designation,
4.1.10 Special requirements, and
4.2 Any supplementary requirements.
5. General Requirements
5.1 Material furnished under this specification shall conform to the applicable requirements of the current edition of
Specification A 1016/A 1016M/A1016M,, unless otherwise provided herein.
6. Manufacture
6.1The tubes shall be made by the seamless or welded process.
6.1 The tubes shall be manufactured by one of the following processes:
6.1.1 Seamless (SML) tubes shall be made by a process that does not involve welding at any stage.
6.1.2 Welded (WLD) tubes shall be made using an automated welding process with no addition of filler metal during the
welding process.
6.1.3 Heavily cold worked (HCW) tubes shall be made by applying cold working of not less than 35 % reduction of thickness
of both wall and weld to a welded tube prior to the final anneal. No filler shall be used in making the weld. Prior to cold working,
theweldshallbe100 %radiographicallyinspectedinaccordancewiththerequirementsofASMEBoilerandPressureVesselCode
Section VIII, Division 1, latest revision, Paragraph UW 51.
6.2 At the manufacturer’s option, tubing may be furnished either hot finished or cold finished.
7. Heat Treatment
7.1 All material shall be furnished in the heat-treated condition. The heat treatment procedure, except for S31803, S32003,
S32205, S32750, N08926 and N08367, shall consist of heating the material to a minimum temperature of 1900 °F (1040 °C) and
quenching in water or rapid cooling by other means.
7.2 N08926 shall be heat-treated to a minimum temperature of 2010°F [1100°C] 2010 °F (1100 °C) followed by quenching in
water or rapidly cooling by other means. UNS N08367 should be solution annealed from 2025°F [1107°C] 2025 °F (1107 °C)
minimum followed by rapid quenching.
7.3 S31803 and S32205 shall be heat-treated in a temperature range of 1870°F [1020°C] 1870 °F (1020 °C) to 2010°F [1100°C]
2010 °F (1100 °C) followed by quenching in water or rapidly cooling by other means.
7.4 S32750 shall be heat-treated in a temperature range of 1880°F [1025°C] 1880 °F (1025 °C) to 2060°F [1125°C] 2060 °F
(1125 °C) followed by quenching in water or rapidly cooling by other means.
7.5 S32003 shall be heat-treated in a temperature range of 1850 °F (1010 °C) to 2010 °F (1100 °C).
8. Chemical Composition
8.1 An analysis of either one length of flat-rolled stock or one tube shall be made for each heat. The chemical composition thus
determined shall conform to the requirements given in Table 1.
´1
A 270 – 03a (2008)
TABLE 1 Chemical Requirements
Element Grade TP 304 TP 304L . . . TP 316 TP 316L . . . . . . . . . . . . . . . 2003
UNS S30400 S30403 S31254 S31600 S31603 N08926 N08367 S31803 S32205 S32750 S32003
A
Designation
Composition, %
B B
Carbon, max 0.08 0.035 0.020 0.08 0.035 0.020 0.030 0.030 0.030 0.030
B B
Carbon, max 0.08 0.035 0.020 0.08 0.035 0.020 0.030 0.030 0.030 0.030 0.030 max
Manganese, 2.00 2.00 1.00 2.00 2.00 2.00 2.00 2.00 2.00 1.20
max
Manganese, 2.00 2.00 1.00 2.00 2.00 2.00 2.00 2.00 2.00 1.20 2.00 max
max
Phosphorus, 0.045 0.045 0.030 0.045 0.045 0.030 0.040 0.030 0.030 0.035
max
Phosphorus, 0.045 0.045 0.030 0.045 0.045 0.030 0.040 0.030 0.030 0.035 0.030
max
Sulfur, max 0.030 0.030 0.010 0.030 0.030 0.010 0.030 0.020 0.020 0.020
Sulfur, max 0.030 0.030 0.010 0.030 0.030 0.010 0.030 0.020 0.020 0.020 0.020 max
Silicon, max 1.00 1.00 0.80 1.00 1.00 0.50 1.00 1.00 1.00 0.80
Silicon, max 1.00 1.00 0.80 1.00 1.00 0.50 1.00 1.00 1.00 0.80 1.00 max
Nickel 8.0–11.0 8.0–12.0 17.5–18.5 10.0–14.0 10.0–14.0 24.0–26.0 23.5–25.5 4.5–6.5 4.5–6.5 6.0–8.0
Nickel 8.0–11.0 8.0–12.0 17.5–18.5 10.0–14.0 10.0–14.0 24.0–26.0 23.5–25.5 4.5–6.5 4.5–6.5 6.0–8.0 3.0–4.0
Chromium 18.0–20.0 18.0–20.0 19.5–20.5 16.0–18.0 16.0–18.0 19.0–21.0 20.0–22.0 21.0–23.0 22.0–23.0 24.0–26.0
Chromium 18.0–20.0 18.0–20.0 19.5–20.5 16.0–18.0 16.0–18.0 19.0–21.0 20.0–22.0 21.0–23.0 22.0–23.0 24.0–26.0 19.5–22.5
Molybdenum . . 6.0–6.5 2.00–3.00 2.00–3.00 6.0–7.0 6.0–7.0 2.5–3.5 3.0–3.5 3.0–5.0
Molybdenum . . 6.0–6.5 2.00–3.00 2.00–3.00 6.0–7.0 6.0–7.0 2.5–3.5 3.0–3.5 3.0–5.0 1.5–2.0
C
Nitrogen . . 0.18–0.22 . . 0.15–0.25 0.18–0.25 0.08–0.20 0.14–0.20 0.24–0.32
C
Nitrogen . . 0.18–0.22 . . 0.15–0.25 0.18–0.25 0.08–0.20 0.14–0.20 0.24–0.32 0.14–0.20
Copper . . . . . . 0.50–1.00 . . . . . . 0.50–1.5 0.75 max . . 0.50 max
A
New designation established in accordance with Practice E 527 and SAE J 1086.
B
For small diameter or thin walls or both, where many drawing passes are required, a carbon maximum of 0.040 % is necessary in grades TP304L and TP316L. Small outside diameter tubes are defined as those
less than 0.500 in. (12.7 mm) in outside diameter and light wall tubes as those less than 0.049 in. (1.24 mm) in average wall thickness (0.044 in. (1.12 mm) in minimum wall thickness).
C
The method of analysis for nitrogen shall be a matter of agreement between the purchaser and manufacturer.

´1
A 270 – 03a (2008)
9. ProductAnalysis
9.1 When requested by the purchaser, product analysis tolerance in Specification A 480/A 480M shall apply. The product
analysis tolerance is not applicable to the carbon content for material with a specified maximum carbon of 0.04 % or less.
9.2 Iftheoriginaltestforproductanalysisfails,retestsoftwoadditionallengthsofflat-rolledstockortubesshallbemade.Both
retests for the elements in question shall meet the requirements of the specification; otherwise all remaining material in the heat
or lot (Note 1) shall be rejected or, at the option of the producer, each length of flat-rolled stock or tube may be individually tested
for acceptance. Lengths of flat rolled stock or tubes that do not meet the requirements of the specification shall be rejected.
10. Mechanical Tests Required
10.1 Reverse Flattening Test—Forweldedtubes,onereverseflatteningtestshallbemadeonaspecimenfromeach1500ft(457
m) of finished tubing.
11. Hydrostatic or Nondestructive Electric Test
11.1 Each tube shall be subjected to the nondestructive electric test or the hydrostatic test. The type of test to be used shall be
at the option of the manufacturer, unless otherwise specified in the purchase order.
12. Permissible Variations in Dimensions
12.1 The following variations in dimensions shall apply:
12.1.1 For tubes with a specified wall thickness of 0.049 in. (1.24 mm) and greater, variations in outside diameter from those
specifiedshallnotexceedtheamountprescribedinTable2.Fortubeswithaspecifiedwallthicknesslessthan0.049in.(1.24mm),
the diameter tolerances shall be a matter for agreement by the manufacturer and the purchaser.
12.1.2 Whentubing>4in.(101.6mm)outsidediameterisordered,additionalovalitymayberequiredforthinwalltubing.Thin
wall tubing applies when the specified wall is less than 0.150 in. (3.81 mm). When thin wall tubing is ordered, the maximum and
minimum outside diameter at any cross section shall deviate from the specified outside diameter by no more than twice the
permissible variation in outside diameter given in Table 2; however, the mean diameter at that cross section must still be within
the given permissible variation.
12.1.3 The wall thickness at any point shall not vary more than 12.5 %, from the specified wall thickness.
12.1.4 Variations in length shall meet the requirements in Table 2 , except when the Pharmaceutical Quality Tubing
(Supplementary Requirement S2) is specified.
13. Surface Finishes
13.1 The following surface finishes may be specified:
13.1.1 Mill Finish— A finish without additional polishing or operations intended to smooth the surface.
13.1.2 Mechanically Polished Surface Finish—The purchaser may specify one of the following finish numbers for a
mechanically polished surface:
13.1.2.1 Finish No. 80—A ground finish produced by polishing a tube with an abrasive media impregnated with No. 80 grit.
13.1.2.2 Finish No. 120—Aground finish produced by polishing a tube with an abrasive media impregnated with No. 120 grit.
13.1.2.3 Finish No. 180—Aground finish produced by polishing a tube with an abrasive media impregnated with No. 180 grit.
13.1.2.4 Finish No. 240—Aground finish produced by polishing a tube with an abrasive media impregnated with No. 240 grit.
13.1.2.5 Other mechanically polished finishes may be agreed upon between the purchaser and manufacturer.
13.1.3 Electropolished Finish—A bright reflective finish produced by electropolishing. The manufacturer may use other
polishing operations prior to electropolishing.
13.1.4 Maximum Roughness Average (Ra) Surface Finish—The customer may specify a maximum Ra on the inside surface,
outside surface, or both. The measurement of surface roughness shall be in accordance with ASME B46.1.
TABLE 2 Permissible Variations in Dimensions
Size, Outside Permissible Variations in Outside Permissible Variations in Cut
A
Diameter, Diameter, in. (mm) Length, in. (mm)
in. (mm)
Over Under Over Under
1.000 (25.4) and under 0.005 (0.13) 0.005 (0.13) ⁄8 (3.2) 0
1 (38.1) to 2 (50.8) 0.008 (0.20) 0.008 (0.20) ⁄8 (3.2) 0
Over 1 (25.4) to 2 (50.8) 0.008 (0.20) 0.008 (0.20) ⁄8 (3.2) 0
2 (63.5) to 3 (76.8) 0.010 (0.25) 0.01
...

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ABSTRACT
This specification covers grades of seamless, welded, and heavily cold worked austenitic and ferritic/austenitic stainless steel sanitary tubing. Seamless tubes shall be manufactured by a process that does not involve welding at any stage. Welded tubes shall be made using an automated welding process with no addition of filler metal during the welding process. Heavily cold worked tubes shall be made by applying cold working of not less than 35% reduction of thickness of both wall and weld to a welded tube prior to the final anneal. No filler shall be used in making the weld. All material shall be furnished in the heat-treated condition. A chemical analysis of either one length of flat-rolled stock or one tube shall be made for each heat. Each tube shall be subjected to mechanical tests like reverse flattening test, hydrostatic test or nondestructive electric test. The following surface finishes may be specified: mill finish, mechanically polished surface finish, finish No. 80, finish No. 120, finish No. 180, finish No. 240, electropolished finish, and maximum roughness average surface finish. Longitudinally polished finish shall be performed on the inside surface only while a circumferential polished finish shall be done on either the inside surface, outside surface, or both.
SCOPE
1.1 This specification covers grades of seamless, welded, and heavily cold worked welded austenitic and ferritic/austenitic stainless steel sanitary tubing intended for use in the dairy and food industry and having special surface finishes. Pharmaceutical quality may be requested, as a supplementary requirement.  
1.2 This specification covers tubes in sizes up to and including 12 in. [300 mm] in outside diameter.  
1.3 The values stated in either SI units or inch-pound units are to be regarded separately as standard. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard.  
1.4 Optional supplementary requirements are provided, and when one or more of these are desired, each shall be so stated in the order.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM A269/A269M-24(Specification)
Standard Specification for Seamless and Welded Austenitic Stainless Steel Tubing for General Service

ABSTRACT
This specification covers nominal-wall-thickness, seamless and welded austenitic steel tubing for general corrosion-resisting and low- or high-temperature service. All material shall be furnished in the heat-treated condition. The steel shall conform to the chemical composition requirements. Different mechanical test requirements that includes, flaring test, flange test, hardness test, and reverse flattening test are presented. Also, each tube shall be subjected to the non-destructive electric test or the hydrostatic test. Finally the hardness requirements for different grades of tubes are highlighted.
SCOPE
1.1 This specification covers grades of nominal-wall-thickness, stainless steel tubing for general corrosion-resisting and low- or high-temperature service, as designated in Table 1.    
Grade  
Composition, %  
TP
XM-29  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
UNS DesignationA  
S24000  
S31254  
S31266  
S31725  
S31726  
S31727  
S32053  
S30600A  
S32654  
S34565  
S35045  
S35030  
N08367  
N08925  
N08926  
N08904  
Carbon  
0.08  
0.020  
0.030
max  
0.035  
0.035  
0.030  
0.030  
0.018  
0.020  
0.030  
0.06–
0.10  
0.05–0.10  
0.030  
0.020  
0.020  
0.020  
Manganese  
11.5–
14.5  
1.00  
2.00–4.00  
2.00  
2.00  
1.00  
1.00  
2.0  
2.0–
4.0  
5.0–
7.0  
1.50  
1.50  
2.00  
1.00  
2.00  
2.00  
Phosphorus  
0.060  
0.030  
0.035  
0.045  
0.045  
0.030  
0.030  
0.020  
0.030  
0.030  
0.045  
0.030  
0.040  
0.045  
0.030  
0.040  
Sulfur.  
0.030  
0.015  
0.020  
0.030  
0.030  
0.030  
0.010  
0.020  
0.005  
0.010  
0.015  
0.015  
0.030  
0.030  
0.010  
0.030  
Silicon  
1.00  
0.80  
1.00  
1.00  
1.00  
1.00  
1.00  
3.7–4.3  
0.50  
1.00  
1.00  
0.50–2.0  
1.00  
0.50  
0.50  
1.00  
Nickel  
2.3–
3.7  
17.5–
18.5  
21.0–24.0  
13.5–
17.5  
14.5–
17.5  
14.5–
16.5  
24.0–
26.0  
14.0–
15.5  
21.0–
23.0  
16.0–
18.0  
32.0–
37.0  
22.5–
27.5  
23.5–
25.5  
24.0–26.0  
24.0–
26.0  
23.0–
28.0  
Chromium  
17.0–
19.0  
19.5–
20.5  
23.0–25.0  
18.0–
20.0  
17.0–
20.0  
17.5–
19.0  
22.0–
24.0  
17.0–
18.5  
24.0–
25.0  
23.0–
25.0  
25.0–
29.0  
18.5–22.5  
20.0–
22.0  
19.0–21.0  
19.0–
21.0  
19.0–
23.0  
Molybdenum  
...  
6.0–
6.5  
5.2–6.2  
4.0–
5.0  
4.0–
5.0  
3.8–
4.5  
5.0–
6.0  
0.20
max  
7.0–
8.0  
4.0–
5.0  
. . .  
6.0–
7.0  
6.0–7.0  
6.0–
7.0  
4.0–
5.0  
Titanium  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
0.15–
0.60  
. . .  
. . .  
. . .  
. . .  
. . .  
Columbium  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
0.10
max  
. . .  
0.25–0.75  
. . .  
. . .  
. . .  
. . .  
Tantalum  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
NitrogenF  
0.20–
0.40  
0.18–
0.25  
0.35–0.60  
0.20
max  
0.10–
0.20  
0.15–
0.21  
0.17–
0.22  
0.45–
0.55  
0.40–
0.60  
. . .  
0.05–0.15  
0.18–
0.25  
0.10–0.20  
0.15–
0.25  
0.10
max  
Vanadium  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
Copper  
. . .  
0.50–
1.00  
1.00–2.50  
. . .  
. . .  
2.8–
4.0  
. . .  
0.50
max  
0.30–
0.60  
. . .  
0.75  
2.5–3.5  
0.75
max  
0.80–1.50  
0.50–
1.50  
1.00–
2.00  
Others  
. . .  
. . .  
W 1.50–2.50  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
. . .  
Al
0.15–
0.60  
. . .  
. . .  
. . .  
. . .  
. . .  
1.2 The tubing sizes and thic...

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ASTM
ASTM A409/A409M-24(Specification)
Standard Specification for Welded Large Diameter Austenitic Steel Pipe for Corrosive or High-Temperature Service

ABSTRACT
This guide covers standard specification for straight seam or spinal seam electric-fusion-welded, light-wall, austenitic chromium-nickel alloy steel pipe for corrosive or high-temperature service. The sizes covered shall include NPS 14 to 30 with extra light (Schedule 5S) and light (Schedule 10S) wall thickness. Several grades of alloy steel shall be covered and shall conform to the required chemical composition for carbon, manganese, phosphorus, sulfur, silicon, nickel, chromium, molybdenum, titanium, columbium, cerium, and other elements. The chemical composition of the welding filler metal shall also conform to the requirements of the applicable AWS specification for the corresponding grade. Tensile properties of the plate or sheet used in making the pipe shall conform to the prescribed values of tensile strength and yield strength. Mechanical tests such as tension test and transverse guided-bend weld test shall be conducted. Pressure or nondestructive electric test shall also be performed.
SCOPE
1.1 This specification2 covers straight seam or spiral seam electric-fusion-welded, light-wall, austenitic chromium-nickel alloy steel pipe for corrosive or high-temperature service. The sizes covered are NPS 14 to 30 with extra light (Schedule 5S) and light (Schedule 10S) wall thicknesses. Table X1.1 shows the wall thickness of Schedule 5S and 10S pipe. Pipe having other dimensions may be furnished provided such pipe complies with all other requirements of this specification.  
1.2 Several grades of alloy steel are covered as indicated in Table 1.    
1.3 Optional supplementary requirements are provided. These call for additional tests to be made, and when desired shall be stated in the order, together with the number of such tests required.  
1.4 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard. The inch-pound units shall apply unless the “M” designation of this specification is specified in the order.  
Note 1: The dimensionless designator NPS (nominal pipe size) has been substituted in this standard for such traditional terms as nominal diameter, size, and nominal size.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM A369/A369M-24(Specification)
Standard Specification for Carbon and Ferritic Alloy Steel Forged and Bored Pipe for High-Temperature Service

ABSTRACT
This guide specifies standard specification for heavy-wall carbon and alloy steel pipe made from turned and bored forgings and is intended for high-temperature service. Heat and product analysis shall be conducted on several grades of ferritic steels, wherein the material shall conform to the required chemical composition for carbon, manganese, phosphorus, sulfur, silicon, chromium, and molybdenum. The steel pipe shall conform to the required tensile properties like tensile strength, yield strength, and elongation. Required mechanical tests for the steel pipe include transverse or longitudinal tension test, flattening test, and bend test.
SCOPE
1.1 This specification2 covers heavy-wall carbon and alloy steel pipe (Note 1) made from turned and bored forgings and is intended for high-temperature service. Pipe ordered under this specification shall be suitable for bending and other forming operations and for fusion welding. Selection will depend on design, service conditions, mechanical properties and high-temperature characteristics.
Note 1: The use of the word “pipe” throughout the several sections of this specification is used in the broad sense and intended to mean pipe headers, or leads.
Note 2: The dimensionless designator NPS (nominal pipe size) has been substituted in this standard for such traditional terms as “nominal diameter,” “size,” and “nominal size.”  
1.2 Several grades of ferritic steels are covered. Their compositions are given in Table 1.    
1.3 Supplementary requirements (S1 to S7) of an optional nature are provided. Supplementary requirements S1 to S5 call for additional tests to be made, and when desired shall be so stated in the order, together with the number of such tests required as applicable.  
1.4 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard. The inch-pound units shall apply unless the “M” designation of this specification is specified in the order.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM A813/A813M-24(Specification)
Standard Specification for Single- or Double-Welded Austenitic Stainless Steel Pipe

ABSTRACT
This specification covers two classes of fit-up and alignment quality straight-seam single- or double-welded austenitic steel pipe intended for high-temperature and general corrosive service. The steel shall conform to the specified chemical composition and tensile property requirements. Both ends of each double-welded pipe shall be visually examined to determine that complete fusion is attained between the two welds. Tension tests shall be made on specimens from two tubes for lots of more than 100 pipes, and one tension test shall be made on a specimen for lots of not more than 100 pipes, Also, for material heat treated in a batch type-furnace, flattening tests shall be made on 5 % of the pipe from each heat-treated lot. Finally, each pipe shall be subjected to the non-destructive electric test or the hydrostatic test.
SCOPE
1.1 This specification covers two classes of fit-up and alignment quality straight-seam single- or double-welded austenitic steel pipe intended for high-temperature and general corrosive service.
Note 1: When the impact test criterion for a low-temperature service would be 15 ft·lbf [20 J] energy absorption or 15 mils [0.38 mm] lateral expansion, some of the austenitic stainless steel grades covered by this specification are accepted by certain pressure vessel or piping codes without the necessity of making the actual test. For example, Grades 304, 304L, and 347 are accepted by the ASME Pressure Vessel Code, Section VIII Division 1, and by the Chemical Plant and Refinery Piping Code, ANSI B31.3 for service at temperatures as low as −425 °F [−250 °C] without qualification by impact tests. Other AISI stainless steel grades are usually accepted for service temperatures as low as −325 °F [−200 °C] without impact testing. Impact testing may, under certain circumstances, be required. For example, materials with chromium or nickel content outside the AISI ranges, and for material with carbon content exceeding 0.10 %, are required to be impact tested under the rules of ASME Section VIII Division 1 when service temperatures are lower than −50 °F [−45 °C]  
1.2 Grades TP304H, TP304N, TP316H, TP316N, TP321H, TP347H, and TP348H are modifications of Grades TP304, TP316, TP321, TP347, and TP348, and are intended for high-temperature service.  
1.3 Two classes of pipe are covered as follows:  
1.3.1 Class SW—Pipe, single-welded with no addition of filler metal and  
1.3.2 Class DW—Pipe, double-welded with no addition of filler metal.  
1.4 Optional supplementary requirements are provided for pipe where a greater degree of testing is desired. These supplementary requirements call for additional tests to be made and, when desired, one or more of these may be specified in the order.  
1.5 Table 1 lists the dimensions of welded stainless steel pipe as shown in ANSI B36.19. Pipe having other dimensions may be furnished provided such pipe complies with all other requirements of this specification.  
1.6 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard. The inch-pound units shall apply unless the “M” designation of this specification is specified in the order.  
1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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ASTM
ASTM A790/A790M-24(Specification)
Standard Specification for Seamless and Welded Ferritic/Austenitic Stainless Steel Pipe

ABSTRACT
The specification covers seamless and straight-seam welded ferritic/austenitic steel pipe for general corrosive service, with particular emphasis on resistance to stress corrosion cracking. The pipe shall be made by the seamless or an automatic welding process, with no addition of filler metal in the welding operation. Heat analysis shall be made to determine the percentages of the elements specified. Tension tests, hardening tests, flattening tests, hydrostatic tests and nondestructive electric tests shall be made to conform to the specified requirements.
SCOPE
1.1 This specification2 covers seamless and straight-seam welded ferritic/austenitic steel pipe intended for general corrosive service, with particular emphasis on resistance to stress corrosion cracking. These steels are susceptible to embrittlement if used for prolonged periods at elevated temperatures.  
1.2 Optional supplementary requirements are provided for pipe when a greater degree of testing is desired. These supplementary requirements call for additional tests to be made and, when desired, one or more of these may be specified in the order.  
1.3 Appendix X1 of this specification lists the dimensions of welded and seamless stainless steel pipe as shown in ANSI B36.19. Pipe having other dimensions may be furnished provided such pipe complies with all other requirements of this specification.  
1.4 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard. The inch-pound units shall apply unless the M designation of this specification is specified in the order.  
Note 1: The dimensionless designator NPS (nominal pipe size) has been substituted in this standard for such traditional terms as nominal diameter, size, and nominal size.  
1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

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