Designation: D 4138 – 94 (Reapproved 1999)
Standard Test Methods for
Measurement of Dry Film Thickness of Protective Coating
Systems by Destructive Means1
This standard is issued under the fixed designation D 4138; 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.
1. Scope
1.1 These test methods cover the measurement of dry film
thickness of coating films by microscopical observation of
precision angular cuts in the coating film. Use of these methods
usually requires repair of the coating film.
1.2 Three test methods are provided for measuring dry film
thickness of protective coating system:
1.2.1 Test Method A—Using groove cutting instruments.
1.2.2 Test Method B—Using grinding instruments.
1.2.3 Test Method C—Using drill bit instruments.
1.3 The substrate should be sufficiently rigid to prevent
deformation of the coating during the cutting process. The
surface may be flat or moderately curved (pipes as small as 1
in. (25 mm) in diameter may be measured in the axial
direction).
1.4 The range of thickness measurement is 0 to 50 mils (0 to
1.3 mm).
1.5 The values stated in inch-pound units are to be regarded
as the standard. The values given in parentheses are for
information only.
1.6 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 appro-
priate safety and health practices and determine the applica-
bility of regulatory limitations prior to use.
2. Referenced Documents
2.1 ASTM Standards:
D 823 Practices for Producing Films of Uniform Thickness
of Paint, Varnish, and Related Products on Test Panels2
D 1005 Test Method for Measurement of Dry-Film Thick-
ness of Organic Coatings Using Micrometres2
D 1186 Test Methods for Nondestructive Measurements of
Dry-Film Thickness of Nonmagnetic Coatings Applied to
a Ferrous Base2
D 1400 Test Method for Nondestructive Measurement of
Dry Film Thickness of Nonconductive Coatings Applied to
a Nonferrous Metal Base2
3. Summary of Test Methods
3.1 The three methods are based on measurement of dry
film thickness by observation of angular cuts in the coating
through a microscope having a built-in reticle with a scale.
Each method employs different instruments to make the cut in
the coating.
3.2 Test Method A—Uses a carbide tipped wedge to cut a
groove in the coating. The groove is cut at a precise angle to the
surface. Three wedge angles are available.
3.3 Test Method B—Uses a high speed rotary grinding disk
or drum type bit to cut partial cylindrical cavities in the
coating. Axes of the cavities can be oriented at three angles of
inclination to the surface.
3.4 Test Method C—Uses a specific angle tip drill bit to cut
a conical cavity in the coating.
4. Significance and Use
4.1 The use of these test methods is not necessarily limited
by the type of substrate material as are nondestructive
magnetic-type means.
4.2 Individual coats or the overall thickness of a coating
system can be measured by these methods.
5. Test Method A—Groove Cutting Instruments
5.1 Apparatus
5.1.1 Scribe Cutter and an Illuminated Microscope, with
Measuring Reticle. The scribe cutter and illuminated micro-
scope may be combined as a single instrument (see Fig. 1).3
The instrument calibration shall be performed by taking
measurements on applied films of known thickness (see Test
Method D 1005).
5.1.2 Tungsten Carbide Cutting Tips shall be designed to
provide a very smooth incision in the paint film at a precise
angle to the surface (see Fig. 2 ). Separate tip designs (angles)
shall provide cuts of known slopes such as 1 to 1, 1 to 2, and
1 to 10. These tips shall be nominally designated 13, 23, and
103 to indicate the ratio of the lateral measurement to vertical
depth. The lateral measurement is represented by the reticle
markings and this vertical depth is represented by the coating
1 These test methods are under the jurisdiction of ASTM Committee D33 on
Protective Coating and Lining work for Power Generating Facilities and is the direct
responsibility of Subcommittee D33.03 on Quality Systems.
Current edition approved Jan. 15, 1994. Published March 1994. Originally
published as D 4138 – 82. Last previous edition D 4138 – 88.
2 Annual Book of ASTM Standards, Vol 06.01.
3 The sole source of supply of the Tooke gage known to the committee at this
time is MicroMetrics, P.O. Box 13804, Atlanta, GA 30324. If you are aware of
alternative suppliers, please provide this information to ASTM Headquarters. Your
commments will receive careful consideration at a meeting of the responsible
technical committee,1which you may attend.
1
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NOTICE: This standard has either been superseded and replaced by a new version or discontinued.
Contact ASTM International (www.astm.org) for the latest information.
film thickness. Metal guide studs on the gage body shall,
together with the cutting tip, form a firm base to ensure that the
tip aligns vertically with the painted surface for a precisely
aligned incision.
5.1.3 Illuminated, 50-Power Microscope shall contain a
reticle scaled from 0 to 100 divisions (see Fig. 3). The total
viewing field of the microscope shall be approximately 125
mils (3.18 mm).
NOTE 1—A photomicrographic adapter is available with some micro-
scopic instruments that allows photographs to be taken through the view
finder.
5.2 Test Specimens
5.2.1 If multiple coats of paint are to be measured, succes-
sive contiguous coats should be of contrasting colors to aid
sharp discrimination of interfaces.
5.2.2 Generally, test specimens shall be prepared (as test
panels) or chosen (as sites on a structure) to be representative
of localized coating thickness and variability.
5.2.3 For test panels, if measurement repeatability is desired
for a particular paint system, care shall be taken in panel
preparation. Coating shall be uniformly applied in accordance
with Test Method D 823. Panels shall be placed in a horizontal
position during drying. Uniform application thickness shall be
verified by another measurement method such as Test Methods
D 1005, D 1186, or D 1400.
5.3 Procedure
5.3.1 Select a test panel or choose a site for the thickness
measurement.
5.3.2 Using an appropriate surface marker of contrasting
color, mark a line on the surface approximately 2-in. long
(51-mm) where the thickness measurement will be made.
FIG. 1 Tooke Inspection Gage3
(A)
FIG. 2 Geometry of Thickness Measurement
(B)
FIG. 2 Grooves Made by 13, 23, and 103 Cutting Tips
(continued)
FIG. 3 Typical View Through Microscope of Tooke Inspector
Gage Showing Reticle
D 4138
2
5.3.3 Select a cutting tip based on estimated film thickness
as follows:
Tip Thickness Range,
mils (µm)
Conversion
Factor
13 20 to 50 (500 to 1250) 1.0
23 2 to 20 (50 to 500) 0.5
103 0 to 3 (0 to 75) 0.1
If thickness is unknown, make a trial determination with the
23 tip.
5.3.4 To cut a groove, grasp the gage with the studs and
cutting tip firmly forming a tripod on the painted surface. Place
the gage at right angles to and about 2 in. (51 mm) perpen-
dicularly from a marked line.
5.3.5 Draw the gage across the paint film toward the body,
with guide studs leading the cutting tip, and increase pressure
on the cutting tip until it barely cuts into the substrate before it
crosses the marked line.
5.3.6 Take readings at the intersection of the marked line
and incision. Read by measuring on the reticle the distance
from the substrate/coating demarcation up the longer machined
slope of the incision to the upper cut edge of each respective
coating layer of the coating system. Make sure that the smooth
cut face of the groove is measured. (The machined upper edge
of the cutting tip usually leaves a less jagged cut). If multiple
coats are observed, individual thicknesses of each coat may be
read. The actual coating thickness is derived by multiplying the
reticle reading by the conversion factor for the respective
cutting tip.
6. Test Method B—Grinding Instruments
6.1 Apparatus
6.1.1 Rotary Tool4—A cordless high speed (5000 to 10 000
r/m) rotary grinder.
6.1.2 Grinding Bit—Tungsten carbide cylindrical-shaped
grinding bit placed in a chuck of a microgroover for grinding
through the coating system.
6.1.3 Positioning Block—The positioning block provides
two specific angles with the coated surface for microgroover
grinding through the coating system. The third angle is
accomplished without using the positioning block.
6.1.4 Measuring Microscope—A 50-power illuminated mi-
croscope used in Test Method A is also used in Test Method B
(see 5.1.3).
6.2 Test Specimens
6.2.1 See requirements outlined in 5.2.
6.3 Procedure
6.3.1 Select a test panel or choose a site for thickness
measurement.
6.3.2 Using an appropriate surface marker of contrasting
color, mark a line on the surface approximately 1⁄4-in. (6.2-mm)
wide by approximately 1-in. (25.4-mm) long where the thick-
ness measurement will be made.
6.3.3 Select a grinding position based on estimated coating
system thickness as follows:
Position Coating System Thickness,
mils (µm)
Conversion
Factor
13 20 to 50 (500 to 1250) 1.0
23 2 to 20 (50 to 500) 0.5
43 0 to 3 (0 to 75) 0.25
If thickness is unknown, make a trial determination in 23
position.
6.3.4 Install the tungsten carbide grinding tip so that it
extends 11⁄4 in. (31.75 mm) from the chuck mouth.
6.3.5 The cut is made by grinding a groove through the
coating system down to the substrate.
NOTE 2—Take care to hold the instrument at the predetermined angle
with sufficient firmness to prevent sideways movement, as shown in Fig.
4.
6.3.6 Grinding slopes or positions of 13, 23, and 43 are
accomplished by using the “position block” or supports as
follows (see Fig. 5):
13: 0.97 in. (24.6 mm) high (block resting on narrow face)
23: 0.41 in. (10.4 mm) high (block resting on wide face)
43: 0.0 in. (0.0 mm) (block not used)
6.3.7 Ground area will appear as partial cylindrical cavity,
with the cavity wall angling gradually upward from the
substrate to the coating system’s exterior surface.
6.3.8 Thickness of each coating system layer of any com-
bination of layers may be determined using an illuminated
microscope as indicated in paragraph 5.1.3 and shown in Fig.
4 The sole source of supply of the Microgroover rotary tool known to the
committee at this time is MicroMetrics, P.O. Box 13804, Atlanta, GA 30324. If you
are aware of alternative suppliers, please provide this information to ASTM
Headquarters. Your commments will receive careful consideration at a meeting of
the responsible technical committee,1which you may attend. FIG. 4 Holding Microgroover4 for Grinding
D 4138
3
6. The sum of the reticle graduations shall be multiplied by the
appropriate conversion factor for the instrument angle position
used.
7. Test Method C—Drilling Instruments
7.1 Apparatus
7.1.1 Cutter/Drill Body—An implement to hold the drill bit
in place over the coating system surface (see Fig. 7).5
7.1.2 Handwheels—Light and heavy hand wheels for hold-
ing the cutter/drill in place and turning.
7.1.3 Cutter/Drill—Cutter/drill bit to penetrate through the
coating system down to the substrate.
7.1.4 Microscope—A 50-power microscope with sealed di-
visions showing through reticle.
7.2 Test Specimens
7.2.1 See requirements outlined in 5.2.
7.3 Procedure
7.3.1 Select a test panel or choose a site for thickness
measurement.
7.3.2 Using an appropriate surface marker of contrasting
color, mark a surface area 1⁄4 by 1⁄4 in. (6.2 mm) where the
thickness measurement will be made.
7.3.3 Select the appropriate handwheel. Use the heavy
wheel on hard or thick coatings above 10 mils (250 µm) and
light wheel for soft or thin coatings below 10 mils.
7.3.4 Insert the cutter in the handwheel selected. Tighten the
recess socket-head screw.
7.3.5 Place the drill body on the surface to be measured with
the hole directly above the measurement area. Fit the cutter
into the drill hole.
7.3.6 Rotate the handwheel in a clockwise direction, using
pressure as necessary (for soft coatings rotate with finger in
recess) until the cutter has penetrated the coating and marked
the substrate.
7.3.7 Remove the cutter assembly and the drill body. View
the cut hole with the microscope, focusing on the side of the
hole.
7.3.8 Note the number of reticle divisions between the
coating surface and the substrate or the individual layers of
paint as shown in Fig. 8.
7.3.9 To calculate the coating thickness: for mils—multiply
gradations by 0.79, and for microns—multiply gradations by
20.0.
8. Report
8.1 Report the following information:
8.1.1 Results of a thickness determination, and
8.1.2 If more than one measurement is made and specific
results for each location are not needed, report the minimum,
the maximum, and the average thickness.
5 The sole source of supply of the Salberg thickness drill known to the committee
at this time is Elcometer Inc., 1893 Rochester Industrial Drive, Rochester Hill, MI
48309. If you are aware of alternative suppliers, please provide this information to
ASTM Headquarters. Your commments will receive careful consideration at a
meeting of the responsible technical committee,1which you may attend.
FIG. 5 Microgroover Block—Positions for Various Cutting Angles
(Slopes)
NOTE 1—The coating thickness is determined using the graduations
along the long axis of the cut represented by the A and B dimensions in
this drawing.
FIG. 6 Typical View Through Microscope of Tooke Inspector
Gage for Microgroover
FIG. 7 Saberg5 Drill With Microscope
D 4138
4
9. Precision
9.1 Individual observations of a uniform coating on a
smooth substrate have been determined to be within 610 %
(the percentage error increases as film thickness decreases).
9.2 Field-applied coatings are characteristically subject to
short-range thickness variability resulting from rough sub-
strates and normal variations in application. The magnitude of
this variability will be reflected by the range or standard
deviation of thickness determinations.
The American Society for Testing and Materials takes no position respecting the validity of any patent rights asserted in connection
with any item mentioned in this standard. Users of this standard are expressly advised that determination of the validity of any such
patent rights, and the risk of infringement of such rights, are entirely their own responsibility.
This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years and
if not revised, either reapproved or withdrawn. Your comments are invited either for revision of this standard or for additional standards
and should be addressed to ASTM Headquarters. Your comments will receive careful consideration at a meeting of the responsible
technical committee, which you may attend. If you feel that your comments have not received a fair hearing you should make your
views known to the ASTM Committee on Standards, at the address shown below.
This standard is copyrighted by ASTM, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
Individual reprints (single or multiple copies) of this standard may be obtained by contacting ASTM at the above address or at
610-832-9585 (phone), 610-832-9555 (fax), or service@astm.org (e-mail); or through the ASTM website (www.astm.org).
FIG. 8 Typical View Through Microscope Used with Saberg Drill
D 4138
5
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