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ASTM B499-09(2021)e1

(Test Method)

Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Nonmagnetic Coatings on Magnetic Basis Metals

Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Nonmagnetic Coatings on Magnetic Basis Metals

SIGNIFICANCE AND USE
5.1 The thickness of a coating is often critical to its performance. For most nonferrous coatings on steel, the magnetic method is reliable for measuring coating thickness nondestructively and is suitable for specification acceptance testing and SPC/SQC applications.  
5.2 This test method should not be used to determine the thickness of electrodeposited nickel coatings on steel. Test Method B530 is suitable for that determination.
SCOPE
1.1 This test method covers the use of magnetic instruments for the nondestructive measurement of the thickness of nonmagnetic coatings over ferrous or other magnetic base metals. It is intended to supplement manufacturers’ instructions for the operation of the instruments and is not intended to replace them.
Note 1: Autocatalytically deposited nickel-phosphorus alloys containing more than 8 % phosphorus are sufficiently nonmagnetic to be measured by this test method, as long as the measurement is made prior to any heat treatment.  
1.2 These instruments measure either the magnetic attraction between a magnet and the basis metal, as influenced by the presence of the coating (categorized as “magnetic pull-off”), or the change in magnetic-flux density within the probe (categorized as “electronic”). These instruments cannot distinguish the thickness of individual layers. They can only measure the cumulative thickness of all layers beneath the probe down to the base metal.  
1.3 Measurements made in accordance with this test method will be in compliance with the requirements of ISO International Standard 2178.  
1.4 Units—The values stated in SI units are to be regarded as the standard. The values given in parentheses are for information only.  
1.5 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.6 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.

General Information

Status
Published
Publication Date
31-Mar-2021
ICS
17.040.20 - Properties of surfaces
Technical Committee
B08 - Metallic and Inorganic Coatings
Drafting Committee
B08.10 - Test Methods
Current Stage
Ref Project

Relations

Refers
ASTM B530-09 - Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Electrodeposited Nickel Coatings on Magnetic and Nonmagnetic Substrates
Effective Date
15-Apr-2009
Refers
ASTM B530-02 - Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Electrodeposited Nickel Coatings on Magnetic and Nonmagnetic Substrates
Effective Date
10-Sep-2002
Refers
ASTM B530-96 - Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method Electrodeposited Nickel Coatings on Magnetic and Nonmagnetic Substrates
Effective Date
10-Apr-1996

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ASTM B499-09(2021)e1 - Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Nonmagnetic Coatings on Magnetic Basis MetalsASTM B499-09(2021)e1 - Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Nonmagnetic Coatings on Magnetic Basis Metals
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ASTM B499-09(2021)e1 - Standard Test Method for Measurement of Coating Thicknesses by the Magnetic Method: Nonmagnetic Coatings on Magnetic Basis Metals
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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.
´1
Designation: B499 − 09 (Reapproved 2021) Endorsed by American
Electroplaters’ Society
Endorsed by National
Association of Metal Finishers
Standard Test Method for
Measurement of Coating Thicknesses by the Magnetic
Method: Nonmagnetic Coatings on Magnetic Basis Metals
This standard is issued under the fixed designation B499; 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 U.S. Department of Defense.
ε NOTE—Editorial corrections were made throughout in May 2021.
1. Scope 1.6 This international standard was developed in accor-
dance with internationally recognized principles on standard-
1.1 This test method covers the use of magnetic instruments
ization established in the Decision on Principles for the
for the nondestructive measurement of the thickness of non-
Development of International Standards, Guides and Recom-
magnetic coatings over ferrous or other magnetic base metals.
mendations issued by the World Trade Organization Technical
It is intended to supplement manufacturers’instructions for the
Barriers to Trade (TBT) Committee.
operation of the instruments and is not intended to replace
them.
2. Referenced Documents
NOTE 1—Autocatalytically deposited nickel-phosphorus alloys contain-
2.1 ASTM Standards:
ing more than 8 % phosphorus are sufficiently nonmagnetic to be
B530 Test Method for Measurement of Coating Thicknesses
measured by this test method, as long as the measurement is made prior
by the Magnetic Method: Electrodeposited Nickel Coat-
to any heat treatment.
ings on Magnetic and Nonmagnetic Substrates
1.2 These instruments measure either the magnetic attrac-
2.2 International Standard:
tionbetweenamagnetandthebasismetal,asinfluencedbythe
ISO 2178 Non-Magnetic Coatings on Magnetic Substrate—
presence of the coating (categorized as “magnetic pull-off”), or
Measurement of Coating Thickness—Magnetic Method
the change in magnetic-flux density within the probe (catego-
rizedas“electronic”).Theseinstrumentscannotdistinguishthe
3. Terminology
thickness of individual layers. They can only measure the
cumulative thickness of all layers beneath the probe down to
3.1 Definitions of Terms Specific to This Standard:
the base metal.
3.1.1 accuracy, n—the measure of the magnitude of error
between the result of a measurement and the true thickness of
1.3 Measurementsmadeinaccordancewiththistestmethod
the item being measured.
will be in compliance with the requirements of ISO Interna-
tional Standard 2178. 3.1.2 adjustment, n—the physical act of aligning a instru-
ment’s thickness readings to match those of a known thickness
1.4 Units—The values stated in SI units are to be regarded
sample (removal of bias), in order to improve the accuracy of
as the standard. The values given in parentheses are for
the instrument on a specific surface or within a specific portion
information only.
of its measurement range. An adjustment will affect the
1.5 This standard does not purport to address all of the
outcome of subsequent readings.
safety concerns, if any, associated with its use. It is the
3.1.3 calibration, n—the high-level, controlled and docu-
responsibility of the user of this standard to establish appro-
mented process of obtaining measurements on traceable cali-
priate safety, health, and environmental practices and deter-
bration standards over the full operating range of the
mine the applicability of regulatory limitations prior to use.
1 2
ThistestmethodisunderthejurisdictionofASTMCommitteeB08onMetallic For referenced ASTM standards, visit the ASTM website, www.astm.org, or
and Inorganic Coatings and is the direct responsibility of Subcommittee B08.10 on contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
Test Methods. Standards volume information, refer to the standard’s Document Summary page on
Current edition approved April 1, 2021. Published May 2021. Originally the ASTM website.
approvedin1969.Lastpreviouseditionapprovedin2014asB499 – 09(2014).DOI: Available fromAmerican National Standards Institute (ANSI), 25 W. 43rd St.,
10.1520/B0499-09R21E01. 4th Floor, New York, NY 10036, http://www.ansi.org.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States
´1
B499 − 09 (2021)
instrument, then making the necessary instrument adjustments 6.2 Coating Thickness Standards, with assigned values
(as required) to correct any out-of-tolerance conditions. traceable to a National Metrology Institution. They may be
3.1.3.1 Discussion—Calibration of coating thickness instru- coated or plated steel plates, or may be foils or shims of flat,
ments is performed by the equipment manufacturer, an autho- non-metallic sheet (typically polyester).
rized agent, or by an authorized, trained calibration laboratory
in a controlled environment using a documented process. The 7. Calibration and Standardization
outcome of the calibration process is to restore/realign the
7.1 Calibration of coating thickness instruments is per-
instrument to meet/exceed the manufacturer’s stated accuracy.
formed by the equipment manufacturer, an authorized agent, or
3.1.4 reference standard, n—aspecimenofknownthickness
by an authorized, trained calibration laboratory in a controlled
used to verify the accuracy of a coating thickness measuring
environment using a documented process. A Certificate of
instrument.
Calibration showing traceability to a National Metrology
Institution can be issued. There is no standard time interval for
3.1.5 verification of accuracy, n—obtaining measurements
re-calibration, nor is one absolutely required, but a calibration
on a reference standard prior to instrument use for the purpose
interval can be established based on experience and the work
ofdeterminingtheabilityofthecoatingthicknessinstrumentto
environment. A one-year calibration interval is a typical
produce reliable values, compared to the combined instrument
frequency suggested by many instrument manufacturers.
manufacturer’s stated accuracy and the stated accuracy of the
reference standard.
7.2 Before use, each instrument’s calibration accuracy shall
be verified in accordance with the instructions of the
4. Summary of Test Method
manufacturer, employing suitable thickness standards and, if
4.1 Magneticpull-offinstrumentsemployanattractionprin-
necessary, any deficiencies found shall be corrected.
ciple and a stationary magnetic field. These mechanical instru-
7.3 During use, calibration accuracy shall be verified at
ments measure the force required to pull a permanent magnet
frequent intervals, at least once a day.Attention shall be given
from a coated magnetic metal substrate. The magnetic force of
to the factors listed in Section 8 and to the procedures
attraction to the substrate beneath the coating is opposed by a
described in Section 9.
spring or coil. Tension is applied to the spring/coil until the
7.4 Coating thickness standards of known thickness are
magnetic attraction to the magnetic substrate is overcome. The
available either as shims, foils, or as coated specimens.
instrument must be placed directly on the coated surface to
7.4.1 Foils:
obtain a measurement. The force holding the permanent
magnet to the magnetic base is inversely proportional to the
NOTE 2—In the following paragraphs, the use of the word “foil’’ will
thickness of the coating layer(s) between the magnet and the
imply a nonmagnetic metallic or nonmetallic foil or shim.
magnetic base. For example, a thin coating applied to a ferrous
7.4.1.1 Because of the difficulty of ensuring adequate
substrate will require greater spring tension to pull the magnet
contact, foils are generally not recommended for the
off than will a thicker coating, since the magnet is closer to the
calibration, verification of accuracy, and adjustment of mag-
ferrous substrate with the thinner coating. This inverse rela-
netic pull-off instruments but they are suitable in some circum-
tionship is reflected on the nonlinear instrument scale.
stances provided the necessary precautions are taken.They can
4.2 Electronic instruments measure a change in magnetic
normally be used with other types of instruments.
flux density within the probe to produce a coating thickness
7.4.1.2 Foils are advantageous on curved surfaces and are
measurement.Theinstrumentprobemustbeplaceddirectly(in
more readily available than coated standards. To prevent
a perpendicular position) on the coated surface to obtain a
measurement errors, it is necessary to ensure that intimate
measurement. These instruments determine the effect on the
contactisestablishedbetweenfoilandsubstrate.Resilientfoils
magnetic field generated by the probe due to the proximity to
should be avoided to prevent indentation errors. Only nonfer-
the substrate.
rous metal foils should be used for thicknesses less than 15 µm
(0.6 mil). Foils are subject to wear and indentation and,
5. Significance and Use
therefore,shouldbereplacedfrequently.Wornfoilsshallnotbe
5.1 The thickness of a coating is often critical to its
used.
performance. For most nonferrous coatings on steel, the
7.4.2 Coated Standards— These calibration standards con-
magnetic method is reliable for measuring coating thickness
sist of nonconductive coatings of known, uniform thickness
nondestructively and is suitable for specification acceptance
permanently bonded to the substrate material.
testing and SPC/SQC applications.
7.4.3 The coating thickness of the standards used shall
bracket the user’s highest and lowest coating thickness mea-
5.2 This test method should not be used to determine the
surement requirement. Standards suitable for many applica-
thickness of electrodeposited nickel coatings on steel. Test
tionsofthetestmethodarecommerciallyavailableandmaybe
Method B530 is suitable for that determination.
used provided the certified values are traceable to a National
Metrology Institution.
6. Apparatus
6.1 Coating Thickness Instrument, based on magnetic 7.5 Insomecasesthecalibrationoftheinstrumentshouldbe
principles, commercially available, suitable to measure coating checked by rotating the probe in increments of 90° (see 8.1.8
thickness accurately. and 8.1.9).
´1
B499 − 09 (2021)
7.6 The basis-metal thickness for the test and the calibration scatter in measurements. Therefore, it is necessary, on a rough
adjustment shall be the same if the critical thickness, defined in or scratched surface, to make a greater number of measure-
8.1.3, is not exceeded. It is often possible to back up the basis ments at different positions to obtain an average value that is
metal of the standard or of the test specimen with a sufficient representative of the mean coating thickness. If the basis metal
thickness of similar material to make the readings independent
is rough, it may also be necessary to check, and adjust if
of the basis-metal thickness. necessary, the zero of the instrument at several positions on a
portion of the uncoated, rough, basis metal.
7.7 If the curvature of the coating to be measured is such as
8.1.7 Direction of Mechanical Working of the Basis Metal—
to preclude calibration adjustment on a flat surface, the
Measurements made by an instrument having a two-pole probe
curvature of the coated standard, or of the substrate on which
or an unevenly worn single-pole probe may be influenced by
the foil is placed, shall be the same.
the direction in which the magnetic basis metal has been
8. Factors Affecting the Measuring Accuracy
subjected to mechanical working (such as rolling), the reading
changing with the orientation of the probe on the surface.
8.1 The following factors affect the accuracy of a coating
thickness measurement:
8.1.8 Residual Magnetism—Residual magnetism in the ba-
8.1.1 Coating Thickness—Inherent to the test method is a sis metal affects the measurements made by instruments that
measurementuncertaintythat,forthincoatings,isconstantand
employ a stationary magnetic field. Its influence on measure-
independent of the coating thickness. The magnitude of this ments made by instruments employing an alternating magnetic
measurement uncertainty is primarily a function of test piece
field is much smaller.
surface finish (see 8.1.6 on surface roughness). For thicknesses
8.1.9 Stray Magnetic Fields—Strong stray magnetic fields,
greater than about 25 µm (1 mil), this uncertainty is propor-
such as are produced by various types of electrical equipment,
tional to the coating thickness.
can seriously interfere with the operation of instruments based
8.1.2 Magnetic Properties of the Basis Metal—Magnetic
on magnetic principles.
thickness measurements are affected by variations in the
8.1.10 Foreign Particles—Magneticinstrumentsofalltypes
magnetic properties of the basis metal. (For practical purposes,
must make physical contact with the test surface and are,
magnetic variations in low-carbon steel can often be consid-
therefore, sensitive to foreign material that prevents intimate
ered to be insignificant. To avoid the influences of severe or
contact between probe and coating surface. Both the test
localized heat treatments and cold working, the instrument
surface and instrument probe should be kept free of foreign
should be adjusted using a reference standard having a basis
material.
metal with the same magnetic properties as that of the test
8.1.11 Conductivity of Coating—Magnetic instruments em-
specimen or, preferably and if available, with a sample of the
ploying an alternating magnetic field operating frequency
part to be tested before application of the coating.)
above 200 Hz could produce eddy currents in thick, highly
8.1.3 Basis Metal Thickness—Foreachinstrument,thereisa
conductive coatings that may interfere with the reading.
critical thickness of the basis metal above which the measure-
8.1.12 Pressure—Instrument readings are sensitive to the
ments will not be affected by an increase in the thickness of the
pressure with which the probe is applied to the test specimen.
basis metal. Since it depends on the instrument probe (Note 3)
Application of the probe should not be allowed to deform the
and the nature of the basis metal, its value should be deter-
coating.
mined experimentally if not supplied by the manufacturer.
8.1.13 Probe Orientation—Magnetic pull-off instruments
NOTE 3—In this method “instru
...

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1.1 This guide covers the methods for measuring the thickness of many metallic and inorganic coatings including electrodeposited, mechanically deposited, vacuum deposited, anodic oxide, and chemical conversion coatings.  
1.2 This guide is limited to tests considered in ASTM standards and does not cover certain tests that are employed for special applications.  
1.3 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.  
1.4 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
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 B487-20(Test Method)
Standard Test Method for Measurement of Metal and Oxide Coating Thickness by Microscopical Examination of Cross Section

SIGNIFICANCE AND USE
4.1 Coating thickness is an important factor in the performance of a coating in service and is usually specified in a coating specification.  
4.2 This method is suitable for acceptance testing.
SCOPE
1.1 This test method covers measurement of the local thickness of metal and oxide coatings by the microscopical examination of cross sections using an optical microscope.  
1.2 Under good conditions, when using an optical microscope, the method is capable of giving an absolute measuring accuracy of 0.8 μm. Accuracy will determine the suitability of the method for measuring the thickness of thin coatings. Accuracy is dependent upon the setup of the microscope and preparation of the sample; 0.8 μm should not be taken as an absolute and instead as guideline.  
1.2.1 Optical microscopes may use digital image capture devices and software to evaluate those images.  
1.3 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. (This is especially applicable to the chemicals cited in Table X2.1.)  
1.4 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 C664-10(2020)(Test Method)
Standard Test Methods for Thickness of Diffusion Coating

SIGNIFICANCE AND USE
3.1 A diffusion coating is one produced by causing an element or elements to react with or diffuse into, or both, the surface of a metallic substrate, thus chemically altering the substrate adjacent to the surface. To appreciate the significance of coating thickness measurements one must understand the contributions to a particular coating of solid-solution zones in the substrate and reaction products such as intermetallic compounds.
SCOPE
1.1 These test methods cover two procedures for measuring the thickness of diffusion coatings.  
1.2 Test Method A is the determination of the dimensional-change thickness, defined as the difference in the thickness of the part before and after coating. (The terms micrometer thickness and part growth are considered synonymous with dimensional change thickness.)  
1.3 Test Method B is the determination of total coating thickness, defined as the distance between the observably unaffected substrate and the exterior surface of the coating. This includes the total of all included phases, zones and layers. (The term case depth is considered to be synonymous with total coating thickness.) The total coating thickness is determined by cross-sectioning the coating, preparing a metallurgical mount and microscopically measuring the coating thickness.  
1.4 The total coating thickness as determined microscopically from a cross-section will usually be greater than, or equal to, the dimensional change thickness determined by part growth. When the coating is produced primarily by reaction with the substrate, the substrate-coating interface recedes as the substrate is consumed in the reaction. In such cases the difference between the total coating thickness and the dimensional change thickness is the thickness of the substrate consumed.  
1.5 Diffusion coatings are usually formed at elevated temperatures for service at elevated temperatures. This means that diffusion coatings are dynamic systems which are continually undergoing changes while in an elevated-temperature environment. It is necessary to know that certain phases are growing at the expense of others and to know the previous history of a coating to understand the significance of coating thickness data.  
1.6 Values in SI units are to be regarded as the standard. Inch-pound units are provided for information only.  
1.7 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use.  
1.8 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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