Standard Test Methods for Chemical Analysis of Stainless, Heat-Resisting, Maraging, and Other Similar Chromium-Nickel-Iron Alloys

Available format(s)

Hardcopy , PDF

Language(s)

English

Published date

23-02-2022

Publisher

American Society for Testing and Materials

1.1These test methods cover the chemical analysis of stainless, heat-resisting, maraging, and other similar chromium-nickel-iron alloys having chemical compositions within the following limits:

Element	Composition Range, %
Aluminum		0.002	to 5.50
Boron		0.001	to 0.20
Carbon		0.01	to 1.50
Chromium		0.01	to 35.00
Cobalt		0.01	to 15.00
Niobium		0.01	to 4.00
Copper		0.01	to 5.00
Lead		0.001	to 0.50
Manganese		0.01	to 20.00
Molybdenum		0.01	to 7.00
Nickel		0.01	to 48.00
Nitrogen		0.001	to 0.50
Phosphorus		0.002	to 0.35
Selenium		0.01	to 0.50
Silicon		0.01	to 4.00
Sulfur		0.002	to 0.50
Tantalum		0.01	to 0.80
Tin		0.001	to 0.05
Titanium		0.01	to 4.50
Tungsten		0.01	to 4.50
Vanadium		0.005	to 1.00
Zirconium		0.001	to 0.20

1.2The test methods in this standard are contained in the sections indicated below:

	Sections
Aluminum, Total, by the 8-Quinolinol Gravimetric Method (0.20 % to 7.00 %)	119–126
Aluminum, Total, by the 8-Quinolinol Spectrophotometric Method (0.003 % to 0.20 %)	71–81
Carbon, Total, by the Combustion–Thermal Conductivity Method–Discontinued 1986	153–163
Carbon, Total, by the Combustion Gravimetric Method (0.05 % to 1.50 %)–Discontinued 2013	98–108
Chromium by the Atomic Absorption Spectrometry Method (0.006 % to 1.00 %)	202–211
Chromium by the Peroxydisulfate Oxidation–Titration Method (0.10 % to 35.00 %)	212–220
Chromium by the Peroxydisulfate-Oxidation Titrimetric Method-Discontinued 1980	145–152
Cobalt by the Ion-Exchange–Potentiometric Titration Method (2 % to 15 %)	53–60
Cobalt by the Nitroso-R-Salt Spectrophotometric Method (0.01 % to 5.0 %)	61–70
Copper by the Neocuproine Spectrophotometric Method (0.01 % to 5.00) %)	109–118
Copper by the Sulfide Precipitation-Electrodeposition Gravimetric Method (0.01 % to 5.00 %)	82–89
Lead by the Ion-Exchange-Atomic Absorption Spectrometry Method (0.001 % to 0.50 %)	127–136
Manganese by the Periodate Spectrophotometric Method (0.01 % to 5.00 %)	9–18
Molybdenum by the Ion Exchange–8-Hydroxyquinoline Gravimetric Method	242–249
Molybdenum by the Thiocyanate Spectrophotometric Method (0.01 % to 1.50 %)	190–201
Nickel by the Dimethylglyoxime Gravimetric Method (0.1 % to 48.0 %)	172–179
Phosphorus by the Alkalimetric Method (0.02 % to 0.35 %)	164–171
Phosphorus by the Molybdenum Blue Spectrophotometric Method (0.002 % to 0.35 %)	19–30
Silicon by the Gravimetric Method (0.05 % to 4.00 %)	46–52
Sulfur by the Gravimetric Method-Discontinued 1988	30–36
Sulfur by the Combustion-Iodate Titration Method (0.005 % to 0.5 %)-Discontinued 2014	37–45
Sulfur by the Chromatographic Gravimetric Method-Discontinued 1980	137–144
Tin by the Solvent Extraction–Atomic Absorption Spectrometry Method (0.002 % to 0.10 %)	180–189
Tin by the Sulfide Precipitation-Iodometric Titration Method (0.01 % to 0.05 %)	90–97
Titanium by the Diantipyrylmethane Spectrophotometric Method (0.01 % to 0.35 %)	231–241
Vanadium by the Atomic Absorption Spectrometry Method (0.006 % to 0.15 %)	221–230

1.3Test methods for the determination of carbon and sulfur not included in this standard can be found in Test Methods E1019.

1.4Some of the composition ranges given in 1.1 are too broad to be covered by a single test method and therefore this standard contains multiple test methods for some elements. The user must select the proper test method by matching the information given in the Scope and Interference sections of each method with the composition of the alloy to be analyzed.

1.5The values stated in SI units are to be regarded as standard.

1.6This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. Specific hazards statements are given in Section 6 and in special “Warning” paragraphs throughout these test methods.

1.7This 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.

Committee	E 01
DocumentType	Test Method
Pages	46
ProductNote	ε1NOTE—Editorial corrections were made in Table 5 in February 2022.
PublisherName	American Society for Testing and Materials
Status	Current
Supersedes	ASTM E 353 : 2019

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ASTM E 350 : 2018	Standard Test Methods for Chemical Analysis of Carbon Steel, Low-Alloy Steel, Silicon Electrical Steel, Ingot Iron, and Wrought Iron
ASTM B 599 : 2020	Standard Specification for Nickel-Iron-Chromium-Molybdenum-Niobium Stabilized Alloy Plate, Sheet, and Strip
ASTM F 1376 : 1992 : R2020	Standard Guide for Metallurgical Analysis for Gas Distribution System Components (Withdrawn 2023)
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ASTM A 703/A703M : 2020 : REV A	Standard Specification for Steel Castings, General Requirements, for Pressure-Containing Parts
ASTM A 957/A957M : 2021	Standard Specification for Investment Castings, Steel and Alloy, Common Requirements, for General Industrial Use
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ASTM A 781/A781M : 2021	Standard Specification for Castings, Steel and Alloy, Common Requirements, for General Industrial Use
ASTM E 1473 : 2016	Standard Test Methods for Chemical Analysis of Nickel, Cobalt and High-Temperature Alloys
ASTM F 621 : 2012 : R2021 : EDT 1	Standard Specification for Stainless Steel Forgings for Surgical Implants
ASTM A 751 : 2021	Standard Test Methods and Practices for Chemical Analysis of Steel Products
ASTM E 352 : 2018 : EDT 1	Standard Test Methods for Chemical Analysis of Tool Steels and Other Similar Medium- and High-Alloy Steels
ASTM F 3184 : 2016	Standard Specification for Additive Manufacturing Stainless Steel Alloy (UNS S31603) with Powder Bed Fusion

ASTM E 29 : 2013 : R2019	Standard Practice for Using Significant Digits in Test Data to Determine Conformance with Specifications
ASTM E 135 : 2023	Standard Terminology Relating to Analytical Chemistry for Metals, Ores, and Related Materials
ASTM E 135 : 2021 : REV A	Standard Terminology Relating to Analytical Chemistry for Metals, Ores, and Related Materials
ASTM E 60 : 2011 : R2016	Standard Practice for Analysis of Metals, Ores, and Related Materials by Spectrophotometry
ASTM E 135 : 2023 : REV A	Standard Terminology Relating to Analytical Chemistry for Metals, Ores, and Related Materials
ASTM E 135 : 2022 : REV B	Standard Terminology Relating to Analytical Chemistry for Metals, Ores, and Related Materials
ASTM E 354 : 2021 : EDT 1	Standard Test Methods for Chemical Analysis of High-Temperature, Electrical, Magnetic, and Other Similar Iron, Nickel, and Cobalt Alloys
ASTM E 350 : 2023	Standard Test Methods for Chemical Analysis of Carbon Steel, Low-Alloy Steel, Silicon Electrical Steel, Ingot Iron, and Wrought Iron
ASTM E 135 : 2022 : REV A	Standard Terminology Relating to Analytical Chemistry for Metals, Ores, and Related Materials
ASTM E 1806 : 2018	Standard Practice for Sampling Steel and Iron for Determination of Chemical Composition
ASTM E 60 : 2011 : R2022 : EDT 1	Standard Practice for Analysis of Metals, Ores, and Related Materials by Spectrophotometry
ASTM E 135 : 2022	Standard Terminology Relating to Analytical Chemistry for Metals, Ores, and Related Materials
ASTM E 352 : 2023	Standard Test Methods for Chemical Analysis of Tool Steels and Other Similar Medium- and High-Alloy Steels
ASTM E 1806 : 2023	Standard Practice for Sampling Steel and Iron for Determination of Chemical Composition
ASTM E 29 : 2022	Standard Practice for Using Significant Digits in Test Data to Determine Conformance with Specifications