Designation: A 967 – 01e1
Standard Specification for
Chemical Passivation Treatments for Stainless Steel Parts1
This standard is issued under the fixed designation A 967; 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 (e) indicates an editorial change since the last revision or reapproval.
e1 NOTE—Paragraph 3.1.1.5 was deleted editorially in April 2002. Paragraph 10.2 was corrected editorially in April 2002.
1. Scope
1.1 This specification covers several different types of
chemical passivation treatments for stainless steel parts. It
includes recommendations and precautions for descaling,
cleaning, and passivation of stainless steel parts. It includes
several alternative tests, with acceptance criteria, for confirma-
tion of effectiveness of such treatments for stainless steel parts.
1.2 Practices for the mechanical and chemical treatments of
stainless steel surfaces are discussed more thoroughly in
Practice A 380.
1.3 Several alternative chemical treatments are defined for
passivation of stainless steel parts. Appendix X1 gives some
nonmandatory information and provides some general guide-
lines regarding the selection of passivation treatment appropri-
ate to particular grades of stainless steel but makes no
recommendations regarding the suitability of any grade, treat-
ment, and acceptance criteria for any particular application or
class of applications.
1.4 The tests in this specification are intended to confirm the
effectiveness of passivation, particularly with regard to the
removal of free iron and other exogenous matter. These tests
include the following practices:
1.4.1 Practice A—Water Immersion Test,
1.4.2 Practice B—High Humidity Test,
1.4.3 Practice C—Salt Spray Test,
1.4.4 Practice D—Copper Sulfate Test,
1.4.5 Practice E—Potassium Ferricyanide–Nitric Acid Test,
and
1.4.6 Practice F—Free Iron Test.
1.5 The values stated in inch-pound units are to be regarded
as the standard. The SI units given in parentheses are for
information only.
1.6 The following precautionary caveat pertains only to the
test method portions, Sections 14 through 18 of this specifica-
tion: This 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 and
health practices and determine the applicability of regulatory
limitations prior to use.
2. Referenced Documents
2.1 ASTM Standards:
A 380 Practice for Cleaning, Descaling, and Depassivation
of Stainless Steel Parts, Equipment, and Systems2
B 117 Practice for Operating Salt Spray (Fog) Apparatus3
B 254 Practice for Preparation of and Electroplating on
Stainless Steel4
2.2 Federal Specification:
QQ-P-35C Passivation Treatments for Corrosion-Resistant
Steels5
3. Terminology
3.1 Definition of Term Specific to This Standard—It is
necessary to define which of the several commonly used
definitions of the term passivation will be used in this
specification. (See Discussion.)
3.1.1 Discussion—Stainless steels are autopassivating in the
sense that the protective passive film is formed spontaneously
on exposure to air or moisture. The presence of exogenous
surface contamination, including dirt, grease, free iron from
contact with steel tooling, and so forth, may interfere with the
formation of the passive film. The cleaning of these contami-
nants from the stainless steel surface will facilitate the spon-
taneous passivation by allowing the oxygen uniform access to
the surface. The passive film may be augmented by chemical
treatments that provide an oxidizing environment for the
stainless steel surface.
3.1.1.1 In this specification, passivation, unless otherwise
specified, is defined as the chemical treatment of a stainless
steel with a mild oxidant, such as a nitric acid solution, for the
purpose of the removal of free iron or other foreign matter, but
which is generally not effective in removal of heat tint or oxide
scale on stainless steel. In the case of stainless steels with
additions of sulfur for the purpose of improved machinability,
1 This specification is under the jurisdiction of ASTM Committee A01 on Steel,
Stainless Steel, and Related Alloys and is the direct responsibility of Subcommittee
A01.14 on Methods of Corrosion Testing.
Current edition approved Oct. 10, 2001. Published December 2001. Originally
published as A 967 – 96. Last previoius edition A 967 – 99.
2 Annual Book of ASTM Standards, Vol 01.03.
3 Annual Book of ASTM Standards, Vol 03.02.
4 Annual Book of ASTM Standards, Vol 02.05.
5 Available from Superintendent of Documents, U.S. Government Printing
Office, Washington, DC 20402.
1
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
passivation may also include the removal of sulfides from the
surface of the metal for the purpose of maximizing corrosion
resistance.
3.1.1.2 The formation of the protective passive film on a
stainless steel, also called passivation in a more general
context, will occur spontaneously in air or other oxygen-
containing environment when the stainless steel surface is free
of oxide scale and exogenous matter.
3.1.1.3 Chemical treatments, such as sodium dichromate
solutions, may facilitate the more rapid formation of the
passive film on a stainless steel surface already free of scale or
foreign matter. Such treatments, also sometimes called passi-
vation in common usage, are designated as post-cleaning
treatments in this specification in order to distinguish them
from chemical treatments capable of removing free iron from
stainless steels.
3.1.1.4 The chemical treatments capable of removing heat
tint or oxide scale from stainless steel and capable of dissolving
the stainless steel itself, typically called pickling, are substan-
tially more aggressive than treatments used for passivation, as
defined in 3.1.1.1. The surface of stainless steel that has been
pickled is free of scale, free iron, and exogenous foreign
matter, and does not require a separate treatment for passiva-
tion as defined in 3.1.1.1. The passivation process defined in
3.1.1.2 will occur without further chemical treatment but may
be augmented and improved by the post-cleaning treatments
defined in 3.1.1.3.
3.1.1.5 Electrochemical treatments, including electropick-
ling and electropolishing capable of removing heat tint or oxide
scale from stainless steel and capable of dissolving the stainless
steel itself, are substantially more aggressive than treatments
used for passivation, as defined in 3.1.1.1. The surface of
stainless steel resulting from these treatments is free of scale,
free iron, and exogenous foreign matter, and does not require a
separate treatment for passivation as defined in 3.1.1.1. The
passivation process defined in 3.1.1.2 will occur without
further chemical treatment, but may be augmented and im-
proved by the post-cleaning treatments defined in 3.1.1.3.
Statements regarding chemical treatments, unless otherwise
specified, are taken to include electrochemical treatments.
4. Ordering Information
4.1 It is the responsibility of the purchaser to specify a test
practice appropriate to any particular material and application.
This specification was written for the purpose of providing an
alternative to United States Federal Specification QQ-P-35C.
Determination of the suitability of this specification for that
purpose is the responsibility of the purchaser.
4.2 Unless specified by the purchaser, the chemical treat-
ment applied to the stainless steel parts shall be selected by the
seller from among the listed passivation treatments.
5. Materials and Preparation for Passivation Treatments
5.1 The passivation treatments shall be of one or more of the
following types. The effectiveness of a particular treatment for
a particular grade of stainless steel in a particular application is
demonstrated by meeting the specified testing requirements:
5.1.1 Treatments in nitric acid,
5.1.2 Treatments in citric acid,
5.1.3 Other chemical treatments, including electrochemical
treatments,
5.1.4 Neutralization, and
5.1.5 Post-cleaning treatments.
5.2 Materials:
5.2.1 The chemicals used for passivation treatments shall
produce passivated surfaces that meet the requirements of one
or more of the tests of this specification. Attention shall be
given to maintaining adequate volume, concentration, purity,
and temperature control appropriate to the size and amount of
stainless steel to be treated.
5.2.2 The processor shall maintain a record with regard to
concentration and temperature of the passivation solution
sufficient to demonstrate that the specified passivation condi-
tions were maintained for each lot of stainless steel parts
processed. Such records shall be available for inspection when
specified in the purchase order. The processor is not required to
reveal the precise composition of proprietary chemical mix-
tures but shall maintain a unique identification of the mixture
that will ensure its accurate representation for subsequent use.
5.2.3 The processor shall be responsible for the safe dis-
posal of all material generated by this process.
5.3 Preparation for Passivation Treatments:
5.3.1 The pretreatment methods and procedures used prior
to the passivation treatment, including mechanical and chemi-
cal methods, singly or in combination, for descaling and
pickling, shall be in accordance with Practice A 380. When
electrochemical cleaning is required, it shall be performed in
accordance with Practice B 254.
5.3.2 The resulting pretreated surface shall be substantially
free of oil, grease, rust, scale, and other foreign matter.
5.3.3 When the final pretreatment of a part includes pickling
of the entire surface of the part, no further passivation
treatment is required prior to testing of the surface unless
specified by the purchaser.
6. Treatments in Nitric Acid Solutions
6.1 Passivation Treatment:
6.1.1 Stainless steel parts shall be treated in one of the
following aqueous solutions and maintained within the speci-
fied temperature range for the specified time.
6.1.1.1 Nitric 1—The solution shall contain 20 to 25 volume
percent of nitric acid and 2.5 + 0.5 weight percent of sodium
dichromate. The parts shall be immersed for a minimum of 20
min at a temperature in the range from 120 to 130°F (49 to
54°C).
6.1.1.2 Nitric 2—The solution shall contain 20 to 45 volume
percent of nitric acid. The parts shall be immersed for a
minimum of 30 min at a temperature in the range from 70 to
90°F (21 to 32°C).
6.1.1.3 Nitric 3—The solution shall contain 20 to 25 volume
percent nitric acid. The parts shall be immersed for a minimum
of 20 min at a temperature in the range from 120 to 140°F (49
to 60°C).
6.1.1.4 Nitric 4—The solution shall contain 45 to 55 volume
percent of nitric acid. The parts shall be immersed for a
minimum of 30 min at a temperature in the range from 120 to
130°F (49 to 54°C).
A 967 – 01e1
2
6.1.1.5 Nitric 5—Other combinations of temperature, time,
and concentration of nitric acid, with or without other chemi-
cals, including accelerants, inhibitors, or proprietary solutions,
capable of producing parts that pass the specified test require-
ments.
6.2 Water Rinse—Immediately after removal from the pas-
sivating solution the parts shall be thoroughly rinsed, using
stagnant, countercurrent, or spray washes singly or in combi-
nation, with or without a separate chemical treatment for
neutralization (see 9.1) of the passivation media, with a final
rinse being carried out using water with a maximum total solids
content of 200 ppm.
7. Treatments in Citric Acid
7.1 Passivation Treatment:
7.1.1 Stainless steel parts shall be treated in one of the
following aqueous solutions and maintained within the speci-
fied temperature range for the specified time.
7.1.1.1 Citric 1—The solution shall contain 4 to 10 weight
percent of citric acid. The parts shall be immersed for a
minimum of 4 min at a temperature in the range from 140 to
160°F (60 to 71°C).
7.1.1.2 Citric 2—The solution shall contain 4 to 10 weight
percent of citric acid. The parts shall be immersed for a
minimum of 10 min at a temperature in the range from 120 to
140°F (49 to 60°C).
7.1.1.3 Citric 3—The solution shall contain 4 to 10 weight
percent of citric acid. The parts shall be immersed for a
minimum of 20 min at a temperature in the range from 70 to
120°F (21 to 49°C).
7.1.1.4 Citric 4—Other combinations of temperature, time,
and concentration of citric acid, with or without other chemi-
cals to enhance cleaning, including accelerants, inhibitors, or
proprietary solutions capable of producing parts that pass the
specified test requirements.
7.1.1.5 Citric 5—Other combinations of temperature, time,
and concentrations of citric acid, with or without other chemi-
cals to enhance cleaning, including accelerants, inhibitors, or
proprietary solutions capable of producing parts that pass the
specified test requirements. Immersion bath to be controlled at
a pH of 1.8–2.2.
7.2 Water Rinse—Immediately after removal from the pas-
sivating solution, the parts shall be thoroughly rinsed, using
stagnant, countercurrent, or spray washes, singly or in combi-
nation, with or without a separate chemical treatment for
neutralization of the passivation media (see 9.2), with a final
rinse being carried out using water with a maximum total solids
content of 200 ppm.
8. Treatments in Other Chemical Solutions, Including
Electrochemical Treatments
8.1 It is recognized that the purpose of removal of all
exogenous matter from a stainless steel surface, including the
removal of free iron, can be accomplished by different media,
with potential for benefits to be gained from use of proprietary
skills and art, including proprietary passivation media. Such
treatments may include externally applying an electrical po-
tential on the stainless steel parts, as in the case of electropol-
ishing. The suitability of such passivation treatments for use in
meeting the requirements of this specification shall be deter-
mined by the capability of the processed parts meeting the
specified test requirements.
8.2 Stainless steel parts shall be treated in a specified
aqueous solution, with or without externally applied electrical
potential, and maintained within a specified temperature range
for a time sufficient for the processed parts to meet the
specified test requirement.
8.3 Water Rinse—Immediately after removal from the pas-
sivating solution, the parts shall be thoroughly rinsed, using
stagnant, countercurrent, or spray washes, singly or in combi-
nation, with or without a separate chemical treatment for
neutralization of the passivation media (see 9.2), with a final
rinse being carried out using water with a maximum total solids
content of 200 ppm.
9. Neutralization
9.1 The chemical reactions of the passivating media on the
surface of the stainless steel shall be stopped by rinsing of the
stainless steel part, with or without a separate neutralization
treatment.
9.2 The suitability of a neutralization procedure is deter-
mined by the capability of the processed parts meeting the
specified test requirements. (See Note 1.)
NOTE 1—The selection of medium and procedures for a neutralization
depends of the chemistry of the passivation and on economic consider-
ations. An example of a neutralizing treatment would be immersion of the
part for a minimum of 30 min in a solution of 5 % NaOH at 160 to 180°F
(71 to 82°C), followed by a water rinse.
10. Post-Cleaning Treatments
10.1 Although the passive film characteristic of stainless
steel will form spontaneously in air or any other oxygen-
containing environment, the processor shall, when specified,
apply a chemical treatment that will accelerate the formation of
the passive film on a chemically clean stainless steel surface.
An example of a medium that serves to accelerate the forma-
tion of the passive film but does not contribute to the removal
of free iron from the stainless steel surface would be an
aqueous solution of sodium dichromate.
10.2 When specified, within one hour after the final water
rinse as required in 6.2, 7.2, or 8.3, all ferritic and martensitic
steel parts shall be immersed in an aqueous solution containing
4 to 6 weight percent of sodium dichromate at a temperature in
the range from 140 to 160°F (60 to 71°C) for a minimum of 30
min, followed by a rinse in accordance with 6.2, 7.2, or 8.3.
The parts shall then be thoroughly dried.
10.3 The purchaser may specify other post-cleaning treat-
ments.
11. Finish
11.1 The passivated parts shall exhibit a chemically clean
surface and shall, on visual inspection, show no etching,
pitting, or frosting resulting from the passivation procedures.
12. Testing Agency
12.1 When required, the purchaser shall be permitted to
perform such inspections as necessary to determine that the
testing agency is capable of performing the specified test.
A 967 – 01e1
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13. Lot, Frequency of Testing, and Selection of Test
13.1 Definition of Lot—A lot shall consist of one of the
following, at the option of the processor:
13.1.1 The passivated parts of similar alloy and manufac-
turing methods that are pretreated and passivated in a single
day or within a time frame that will ensure consistent passiva-
tion results;
13.1.2 The passivated parts of the same product of one size
from one heat in one shipment; or
13.1.3 When few parts are involved, the passivated parts
from an entire production run.
13.2 Unless a greater frequency of testing is specified on the
purchase order, one test per lot shall be sufficient.
13.3 One or more of the following tests, when specified on
the purchase order, shall be performed on each lot of stainless
steel parts. Not all of the following tests are suitable for all
grades of stainless steel. (See Note 2.)
13.3.1 Practice A—Water Immersion Test,
13.3.2 Practice B—High Humidity Test,
13.3.3 Practice C—Salt Spray Test,
13.3.4 Practice D—Copper Sulfate Test, and
13.3.5 Practice E—Potassium Ferricyanide–Nitric Acid
Test.
NOTE 2—Some of the tests may produce positive indications not
associated with the presence of free iron on the stainless steel surface. An
example would be application of Practice C on some lesser-alloyed
martensitic or ferritic stainless steels.
14. Practice A—Water Immersion Test
14.1 This test is used for the detection of free iron or any
other anodic surface contaminants on stainless steel.
14.2 The sample representing the lot of passivated parts
shall be alternately immersed in a non-rusting tank of distilled
water for 1 h and allowed to dry in air for 1 h. This cycle shall
be repeated a minimum of twelve times.
14.3 The tested sample shall not exhibit rust or staining
attributable to the presence of free iron particles embedded in
the surface.
15. Practice B—High Humidity Test
15.1 This test is used for the detection of free iron or any
other anodic surface contaminants on stainless steel.
15.2 The test shall be performed using a humidity cabinet
capable of maintaining the specified test conditions.
15.3 The sample representing the lot of passivated parts
shall be cleaned by immersion in acetone or methyl alcohol or
by swabbing with a clean gauze saturated with acetone or
methyl alcohol, and dried in an inert atmosphere or desiccated
container. The cleaned and dried part shall be subjected to 97
6 3 % humidity at 100 6 5°F (38 6 3°C) for a minimum of
24 h.
15.4 The tested sample shall not exhibit rust or staining
attributable to the presence of free iron particles imbedded in
the surface.
16. Practice C—Salt Spray Test
16.1 This test is used for the detection of free iron or any
other anodic surface contaminants on stainless steel.
16.2 The sample