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ASTM International - ASTM A763-15

Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels

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Organization: ASTM International
Publication Date: 1 March 2015
Status: inactive
Page Count: 11
ICS Code (Stainless steels): 77.140.20
scope:

1.1 These practices cover the following four tests:

1.1.1 Practice W-Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by classification of the etching structures (see Sections 3 - 10).

1.1.2 Practice X-Ferric sulfate-sulfuric acid test for detecting susceptibility to intergranular attack in ferritic stainless steels (Sections 11 - 16).

1.1.3 Practice Y-Copper-copper sulfate-50 % sulfuric acid test for detecting susceptibility to intergranular attack in ferritic stainless steels (Sections 17 - 22).

1.1.4 Practice Z-Copper-copper sulfate-16 % sulfuric acid test for detecting susceptibility to intergranular attack in ferritic stainless steels (Sections 23 - 29).

1.2 The following factors govern the application of these practices (1-6)2:

1.2.1 Practice W, oxalic acid test, is a rapid method of identifying, by simple electrolytic etching, those specimens of certain ferritic alloys that are not susceptible to intergranular corrosion associated with chromium carbide precipitation. Practice W is used as a screening test to avoid the necessity, for acceptable specimens, of more extensive testing required by Practices X, Y, and Z. See Table 1 for a listing of alloys for which Practice W is appropriate.

(A) Polished surface examined at 250 to 500× with a metallurgical microscope (see 3.1.6). All other microscopical examinations are of the corroded surface under 40× binocular examination (see Section 27).(B) A = Applicable.(C) Preferred criterion, these criteria are the most sensitive for the particular combination of alloy and test.(D) Weight loss measurements can be used to detect severely sensitized material, but they are not very sensitive for alloys noted with this superscript and may not detect slight or moderate sensitization.(E) NA = Not applicable.

1.2.2 Practices X, Y, and Z can be used to detect the susceptibility of certain ferritic alloys to intergranular attack associated with the precipitation of chromium carbides or nitrides.

1.2.3 Practices W, X, Y, and Z can also be used to evaluate the effect of heat treatment or of fusion welding on susceptibility to intergranular corrosion.

1.2.4 Table 2 lists the identification ferritic stainless steels for which data on the application of at least one of the standard practices is available.

(A) Types 430, 434, 436, and 446 are nonstabilized grades that are generally not used in the as-welded or sensitized condition in other than mildly corrosive environments. In the annealed condition, they are not subject to intergranular corrosion. For any studies of IGA on Types 430, 434, 436, or 446, the indicated test methods are suggested.

1.2.5 Some stabilized ferritic stainless steels may show high rates when tested by Practice X because of metallurgical factors not associated with chromium carbide or nitride precipitation. This possibility must be considered in selecting the test method. Combinations of alloys and test methods for which successful experience is available are shown in Table 1. Application of these standard tests to the other ferritic stainless steels will be by specific agreement between producer and user.

1.3 Depending on the test and alloy, evaluations may be accomplished by weight loss determination, microscopical examination, or bend test (Sections 30 and 31). The choices are listed in Table 1.

1.4 This standard does not purport to address all of the safety problems, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. For specific safety precautionary statements, see 3.2.5, Section 7, 13.1, and 19.1.

abstract:

This practices covers the detecting susceptibility to intergranular attack in ferritic stainless steel. Different method of preparing steel test specimens are presented. Four practices, including... View More

Document History

September 1, 2021
Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels
1.1 These practices cover the following four tests: 1.1.1 Practice W-Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by...
ASTM A763-15
March 1, 2015
Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels
1.1 These practices cover the following four tests: 1.1.1 Practice W—Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by...
October 1, 2014
Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels
1.1 These practices cover the following four tests: 1.1.1 Practice W—Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by...
April 1, 2009
Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels
1.1 These practices cover the following four tests: 1.1.1 Practice W—Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by...
March 1, 2004
Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels
1.1 These practices cover the following four tests: 1.1.1 Practice W—Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by...
March 10, 1999
Standard Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels
1.1 These practices cover the following four tests: 1.1.1 Practice W -Oxalic acid etch test for detecting susceptibility to intergranular attack in stabilized ferritic stainless steels by...
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