ASTM D1000-99

NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
Contact ASTM International (www.astm.org) for the latest information
An American National Standard
Designation: D 1000 – 99
Standard Test Method for
Pressure-Sensitive Adhesive-Coated Tapes Used for
Electrical and Electronic Applications
This standard is issued under the fixed designation D 1000; 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.
This standard has been approved for use by agencies of the Department of Defense.
1. Scope
Dielectric Breakdown Voltage 83-90
Effect of Accelerated Aging on High-Temperature Tapes 97-103
1.1 These test methods cover procedures for testing
Flagging 66-76
pressure-sensitive adhesive-coated tapes to be used as electri-
Flammability 104-109
Hazards/Precautions 3
cal insulation. These tapes are classified as follows:
Insulation Resistance at High Humidity 91-96
1.1.1 Class 1—Non-elastomeric backings made from mate-
Length of Tape in a Roll 28-36
rials such as:
Oil Resistance 116-122
Puncture Resistance 123-128
Paper, flat or creped,
Resistance to Accelerated Aging (Heat and Moisture) 129-139
Fabric, uncoated or coated,
Sampling 4
Cellulose ester films,
Specimen Preparation 5
Polyethylene terephthalate (polyester) films,
Thermosetting Properties 77-82
Fluorocarbon polymer films,
Thickness 21-27
Composite filament films,
Unwind Force at Room Temperature 54-65
Polyamide films,
Unwind Force at Low Temperatures 54-65
Polyimide films, and
Width 11-20
Combinations thereof.
NOTE 1—These procedures apply to both Class 1 and Class 2 tapes
except as noted above.
1.1.2 Class 2—Elastomeric backings that are characterized
by both high stretch and substantial recovery. These backings 1.5 The values stated in SI units are the standard, unless
are made from materials such as: otherwise noted. If a value for measurement is followed by a
value in inch-pound or English units in parentheses, the second
Vinyl chloride and co-polymers,
Vinylidene chloride and co-polymers, and
value may only be approximate and is for information only.
Polyethylene and co-polymers.
The first stated value is the preferred unit.
1.2 Laminates of Class 1 and Class 2 backings should be
NOTE 2—These test methods are similar to IEC 60454–3, but may differ
tested according to Class 1 test methods.
sometimes in some details.
1.3 This standard does not purport to address all of the
1.6 This is a fire–test response standard.
safety concerns, if any, associated with its use. It is the
responsibility of the user of this standard to establish appro-
2. Referenced Documents
priate safety and health practices and determine the applica-
2.1 ASTM Standards:
bility of regulatory limitations prior to use. For specific hazards
A 167 Specification for Stainless and Heat-Resisting
see Section 3.
Chromium-Nickel Steel Plate, Sheet, and Strip
1.4 The procedures appear in the sections indicated below
D 149 Test Method for Dielectric Breakdown Voltage and
and in alphabetical order:
Dielectric Strength of Solid Electrical Insulating Materials
Adhesion Strength to Steel and Backing at Room Temperature 46-53
at Commercial Power Frequencies
Adhesion Strength to Steel and Backing at Low Temperatures 46-53
Bond Strength After Solvent Immersion 110-115
D 257 Test Methods for DC Resistance or Conductance of
Breaking Strength and Elongation at Room Temperature 37-45
Insulating Materials
Breaking Strength and Elongation at Low Temperatures 37-45
D 295 Test Methods for Varnished Cotton Fabrics Used for
Conditioning 6-8
Curling and Twisting 140-146 Electrical Insulation
D 374 Test Methods for Thickness of Solid Electrical Insu-
lation
These test methods are under the jurisdiction of ASTM Committee D-9 on
Electrical and Electronic Insulating Materials, and are the direct responsibility of
Subcommittee D09.07 on Flexible and Rigid Insulating Materials.
Current edition approved March 10, 1999. Published June 1999. Originally Annual Book of ASTM Standards, Vol 01.03.
published as D 1000 – 48. Last previous edition D 1000 – 93. Annual Book of ASTM Standards, Vol 10.01.
Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.
D1000–99
D 1711 Terminology Relating to Electrical Insulation 4.4 See Table 1 for a summary of standard requirements for
D 3487 Specification for Mineral Insulating Oil Used in the number of test specimens to select from each sample roll,
Electrical Apparatus the number of test measurements to make per test specimen,
D 5032 Practice for Maintaining Constant Relative Humid- and the value to be reported.
ity by Means of Aqueous Glycerin Solutions 4.5 Include in every report the complete identification of the
E 691 Practice for Conducting an Interlaboratory Study to tape tested.
Determine the Precision of a Test Method
SPECIMEN PREPARATION
2.2 IEC Standard:
IEC 60454-3 Specification for Pressure-Sensitive Adhesive
5. Test Specimen Preparation
Tapes for Electrical Purposes
5.1 Place any roll of tape to test on a freely revolving
mandrel. Except for determination of length of tape in a roll,
3. Hazards
remove and discard a minimum of three layers before remov-
3.1 The following specific substances are flammable liq-
ing tape for preparation of test specimens.
uids. Do not use them in the vicinity of open flames or
5.2 Remove sufficient length of tape, at the rate of approxi-
electrical contacts: acetone (see 50.1 and 94.1), heptane (see
mately 50 mm/s (2 in./s), to provide the specimens required for
50.1 and 94.1), and toluene (see 70.6). They must be stored in
all tests. Cut the tape with a sharp razor blade or scissors,
closed containers, and it is imperative to clean apparatus in a
unless otherwise specified. Place the tape on a smooth clean
well-ventilated area.
surface, adhesive side up, or suspend it from one end in free air.
3.2 As a toxic substance, toluene should be used only where
Protect the adhesive surface from dust. Do not allow the
adequate ventilation is provided and in such manner as to avoid
adhesive surface to contact the operator’s fingers or other
any absorption through the skin (see 70.6).
foreign objects. From this tape material, prepare specimens as
3.3 Warning— Lethal voltages may be present during test
required in the individual test methods. See also Table 1.
methods which evaluate electrical properties. It is essential
5.3 Use test specimens that are the width of the tape as
that the test apparatus, and all associated equipment that may
received, if possible. If it is necessary to prepare narrower
be electrically connected to it, be properly designed and
specimens as prescribed in the test method, use extreme care
installed for safe operation. Solidly ground all electrically
since hand trimming may materially affect the test results. Two
conductive parts that any person might come in contact with
recommended procedures are (1) to slit the specimen with a
during the test. Provide means for use, at the completion of any
sharp razor blade free of nicks while the specimen is held down
test, to ground any parts which: were at high voltage during the
with a pattern of the desired width, or (2) to slit with mounted
test; may have acquired an induced charge during the test; may
parallel sharp razor blades free of nicks to the desired width.
retain a charge even after disconnection of the voltage source.
Thoroughly instruct all operators in the proper way to conduct CONDITIONING
tests safely. When making high voltage tests, particularly in
6. Terminology
compressed gas or in oil, the energy released at breakdown
6.1 Definitions:
may be suffıcient to result in fire, explosion, or rupture of the
test chamber. Design test equipment, test chambers, and test
TABLE 1 Testing and Reporting
specimens so as to minimize the possibility of such occurrences
Sec- Tests per Specimens
B
and to eliminate the possibility of personal injury.
Test Report
A A
tion Specimen per Roll
Width 14, 19 3 1 avg
SAMPLING
Thickness 26 3 1 avg
Length of tape in a roll 35 1 1 value
4. Sample and Specimen Requirements
Breaking strength 44 1 3 avg
Elongation 44 1 3 avg
4.1 Unless otherwise specified, select one sample roll for
Adhesion strength 52 1 3 avg
each 10 000 rolls in a lot, with a minimum of three sample rolls
Unwind force
Fast rate of removal 64 1 1 value
per lot.
Slow rate of removal 64 3 1 avg
4.2 For sampling purposes, a lot consists of identifiable
Flagging
materials of the same type, manufactured in one production run Class 1 Tape 71 3 1 avg
Class 2 Tape 75 1 3 avg
and offered for delivery at the same time.
Thermosetting properties 81 1 3 avg
4.3 All test methods in this standard are intended to produce
Dielectric breakdown voltage 89 3 3 avg
a test value for a single roll. Any reference to averaging of Insulation resistance at high humidity 95 5 1 med
Effect of accelerated aging 102 3 2 avg
measurements refers to the averaging of measurements on a
Flammability 108 1 3 avg
single roll and not to the average of all sample rolls.
Bond strength after solvent immersion 114 1 3 avg
Oil resistance 121 1 4 avg
Puncture resistance 127 1 5 avg
Resistance to accelerated aging 129, 133 1 6 avg
Curling and twisting 140 1 3 avg
Annual Book of ASTM Standards, Vol 10.03.
A
Annual Book of ASTM Standards, Vol 10.02.
When referee testing is involved, use an average of 5 determinations wherever
Annual Book of ASTM Standards, Vol 14.02.
1 or 3 are specified above.
7 nd
B
Available from American National Standards Institute, 11 W. 42 St., New
Minimum and maximum values may also be required when average values are
York, NY 10036. reported.
D1000–99
6.1.1 conditioning, n—the exposure of a material to the 15. Precision and Bias
influence of a prescribed atmosphere for a stipulated period of
15.1 This test method has been in use for many years, but no
time or until a stipulated relation is reached between material
statement of precision has been made and no activity is planned
and atmosphere.
to develop such a statement.
15.2 This test method has no bias because the value for
7. Significance and Use
width is defined in terms of this test method.
7.1 The physical and electrical properties such as adhesion,
Method B—Caliper
elongation, breaking strength, and dielectric breakdown will
vary with temperature and moisture content. Actual service
16. Apparatus
results are influenced by these factors. In order that test
16.1 A pair of calipers with a scale length larger than width
methods yield consistent and reproducible results, control the
of the roll of tape, having divisions at 0.5-mm or ⁄64-in.
temperature and moisture content of the sample or specimen.
intervals.
8. Conditioning for Room Temperature Measurements
17. Test Specimen
8.1 Condition all rolls of tape for a minimum of 24 h to a
17.1 One roll of tape, conditioned in accordance with
temperature of 20 to 25°C (68 to 77°F) before removing
Section 8. Unless damaged, no outer layers need to be
specimens for test.
removed.
8.2 For referee testing purposes, subject all sample rolls to
a controlled laboratory temperature of 23 6 1°C (73.46 1.8°F)
18. Procedure
for a minimum period of 24 h before removing specimens for
18.1 The outer turns of the roll must have clean and sharp
test.
edges. Discard any damaged or crushed edges. After condi-
8.3 Unless otherwise specified, condition all test specimens
tioning the roll of tape, place it on a table in a vertical position.
for a period of1hina controlled laboratory atmosphere at 236
Open the jaws of the calipers and slide them over the cut edges
1°C (73.4 6 1.8°F) and 50 6 2 % relative humidity.
of the tape so that the scale shaft is parallel to the table. Close
the caliper jaws slowly so as to just touch the sides of the tape
9. Conditioning for Low Temperature Measurements
roll. Be careful not to crush the edges and keep the caliper jaws
9.1 Elastomeric backings of Class 2 tapes may be subject to
perpendicular to the edges of the tape. Measure the width
cold temperature tests. In these cases, place prepared speci-
perpendicular to the edges in mm (in.) to the nearest 0.5 mm
mens or rolls of tape in a cold room and condition for at least
( ⁄64 in.) at three approximately equally-spaced points along the
2 h at the desired temperature (for example, 10°C, 0°C, –10°C,
circumference of the roll.
–18°C, etc.).
19. Report
10. Apparatus for Low Temperature Conditioning
19.1 Report the average width in millimetres or inches, plus
10.1 Cold room or cold chamber capable of maintaining the
the maximum and minimum, if specified.
desired cold temperatures during testing.
20. Precision and Bias
WIDTH OF TAPE
20.1 This test method has been in use for many years, but no
statement of precision has been made and no activity is planned
Method A—Steel Ruler
to develop such a statement.
20.2 This test method has no bias because the value for
11. Apparatus
width is defined in terms of this test method.
11.1 A steel scale having divisions at 0.5 mm or ⁄64-in.
intervals.
THICKNESS
12. Test Specimens
21. Terminology
12.1 Select test specimens of approximately 450 mm (18-
21.1 Definitions of Terms Specific to This Standard:
in.) lengths of tape taken from each sample roll in accordance
21.1.1 thickness, n—the perpendicular distance between the
with 5.2 and conditioned in accordance with Section 8.
opposite surfaces of pressure-sensitive adhesive tape as deter-
mined in accordance with this test method.
13. Procedure
22. Significance and Use
13.1 Place the test specimen, after conditioning, without
tension or pressure, adhesive side down on a hard smooth
22.1 The thickness is of value in controlling uniformity and
surface. Measure the width perpendicular to the edge with the
providing design data, as well as for use in determining
steel scale at three approximately equally-spaced points along
physical and electrical properties.
the length.
23. Apparatus
14. Report
23.1 Thickness Gage—A dead weight thickness gage as
14.1 Report the average width in millimetres or inches, plus prescribed in Apparatus C of Test Methods D 374, with the
the maximum and minimum, if specified. following modifications:
D1000–99
23.1.1 Presser Foot Diameter—6 mm ( ⁄4 in.). 30.2 Steel Rule—Capable of measuring to the nearest 2 mm
23.1.2 Anvil Diameter—6 mm to 50 mm ( ⁄4 to 2 in.). (0.1 in.).
23.1.3 A weighted presser foot so that the total pressure
31. Test Specimen
applied to a specimen is equal to 50 6 5 kPa (7.6 6 0.5 psi).
31.1 A test specimen is a single thickness of pressure-
Calibrate the gage for the actual load exerted by the presser
sen
...