ASTM D3632-98(2011)

NOTICE: This standard has either been superseded and replaced by a new version or withdrawn.
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Designation: D3632 − 98 (Reapproved 2011)
Standard Test Method for
Accelerated Aging of Adhesive Joints by the Oxygen-
Pressure Method
This standard is issued under the fixed designation D3632; 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.
1. Scope D573 Test Method for Rubber—Deterioration in an Air
Oven
1.1 This test method describes how to estimate the relative
D907 Terminology of Adhesives
resistance to deterioration of adhesive films and adhesive-
D2339 Test Method for Strength Properties of Adhesives in
bonded joints placed in a high-pressure oxygen environment.
Two-Ply Wood Construction in Shear by Tension Loading
The instructions include both wood-to-wood and wood-to-
metal joints as well as free film of adhesive. The effects of
3. Terminology
chemicals such as fire retardants, preservatives, or wood
extractives, can be evaluated by using materials containing
3.1 Definitions—Many definitions in this test method are
these chemicals for adherends. defined in Terminology D907.
1.2 This test method is primarily intended for elastomer-
4. Summary of Test Method
based construction adhesives, but is also applicable to other
types of adhesives that may be susceptible to oxygen degrada-
4.1 This test method entails subjecting specimens with
tion. This accelerated test does not correlate exactly with the
known physical properties to a controlled aging environment
natural aging of the adhesive because of the varied conditions
forspecifictimeperiods,thenobservingthephysicalproperties
of natural aging and the absence of factors such as moisture
again and noting any changes. The controlled environment
and stress. The results of this accelerated test are only
consists of elevated temperature (70°C) (158°F) and oxygen at
comparative and must be evaluated against the performance of
elevated pressure 2.07 MPa (300 psi).
bonded joints whose natural and accelerated aging character-
4.2 Three types of test specimens are offered. The party
istics are known.
requesting the adhesive evaluation will choose the type of
1.3 This standard does not purport to address all of the
specimen to be used.
safety concerns, if any, associated with its use. It is the
Physical Property
Specimen Type Configuration
responsibility of the user of this standard to establish appro-
Tested
A wood-to-wood lap shear strength
priate safety and health practices and determine the applica-
B wood-to-metal lap shear strength
bility of regulatory limitations prior to use.
C unsupported film flexibility
4.3 Three different oxygen-pressure aging exposures are
2. Referenced Documents
offered. Use any exposure with any of the above specimens.
2.1 ASTM Standards:
The party requesting the adhesive evaluation will choose the
D143 Test Methods for Small Clear Specimens of Timber
exposure to which the specimens are subjected.
D454 Test Method for Rubber Deterioration by Heat andAir
4.3.1 Constant exposure for 500 h with a single test of the
Pressure
physical property at the end of 500 h.
D572 Test Method for Rubber—Deterioration by Heat and
4.3.2 Constant exposure for 1000 h with a single test of the
Oxygen
physical property at the end of 1000 h.
4.3.3 Constant exposure for up to 1000 h with a series of
tests of the physical property after 200, 400, 600, 800, and
This test method is under the jurisdiction of ASTM Committee D14 on
1000 h.
Adhesives and is the direct responsibility of Subcommittee D14.70 on Construction
Adhesives.
Current edition approved Jan. 1, 2011. Published January 2011. Originally
5. Significance and Use
approved in 1977. Last previous edition approved in 2004 as D3632 – 98 (2004).
DOI: 10.1520/D3632-98R11.
5.1 This test method is useful to the adhesive manufacturer
For referenced ASTM standards, visit the ASTM website, www.astm.org, or
in research and development or in manufacturing control. The
contact ASTM Customer Service at service@astm.org. For Annual Book of ASTM
results are also used for specification acceptance or as a guide
Standards volume information, refer to the standard’s Document Summary page on
the ASTM website. in adhesive selection.
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D3632 − 98 (2011)
5.2 The provisions for testing bonded specimens as well as 6.1.1.4 Use a thermostat to control automatically the tem-
free films are made for two purposes. First, it is possible for an perature of the heating medium.
interaction to occur between oxygen and chemicals or degra- 6.1.1.5 Record the temperature automatically throughout
dation products that may affect the degradation of the bonded the test period. If the pressure chamber is completely
joints strength. Second, some increase in strength due to immersed, use the temperature of the heating medium as the
oxidative crosslinking may not be detrimental in a bonded temperatureofthepressurechamber.Placethesensingelement
assembly and in fact may be beneficial. Adhesives of this close to the temperature-measuring device but not touching the
behavior are not satisfactorily tested by a film flexibility test. pressure chamber. If the pressure chamber is not completely
immersed in the heating medium, place the sensing element in
5.3 Some users of this test method will be most interested in
a thermometer well that extends into the pressure chamber. Fill
the performance of the bonded joint; some will be most
the thermometer well with enough water to cover the element
interested in the performance of the adhesive. In the latter case,
so that heat will transfer easily. If a comparison has been made
itisimportanttonotethatthetruevariance(errormeansquare)
and it has been confirmed that the temperature of the oxygen
of the strength of the adhesive may be obscured when the
within the chamber is the same as the temperature of the
tested control specimens or the tested aged specimens show
heating medium, it is permissible to take the temperature in the
wood failure.
heating medium instead of in the thermometer well. When
5.4 Conflict of Procedure—If the procedures of this test
using air as the heating medium, check the temperature in
method conflict with those of detailed product specifications or
various parts of the oven to determine that the oven is heating
manufacturer’s use instructions for a particular material, then
evenly. In any case, verify the recorded temperature by
use the latter.
checking with a temperature-indicating device whose sensing
element is directly exposed to the oxygen within the pressure
6. Apparatus
chamber.
6.1 Oxygen-Pressure Vessel—The specifications for the
6.1.1.6 Maintain positive, rapid, and complete circulation of
oxygen-pressure vessel described in 6.1.1.1 through 6.1.1.8 are
the heating medium so as to ensure accurate, uniform heating.
the same as those described in Test Method D572. Adequate
6.1.1.7 The pressure chamber should have a reliable safety
safety provisions are important when heating oxidizable or-
valve or rupture diaphragm set for release at 3.448 MPa (500
ganic materials in oxygen, since the rate of reaction may
psi) pressure.
become very rapid and very high pressures may develop.
6.1.1.8 Do not expose any copper or brass parts to the
Heating these materials is especially dangerous when a large
atmosphere nor use them in the pressure chamber or the tubing
surface area is exposed. If the same equipment is used for the
or valves leading to it.
oxygen-pressure test as for the air-pressure heat test (Test
6.2 Testing Machine for Lap Shear Strength Tests—The
Method D454), be careful and check to see that the thermo-
testing machine specifications described in 6.2.1 are the same
static controls are set properly because the specimens may
as those described in Test Method D2339.
react with oxygen very rapidly at the temperature of the
6.2.1 Use a testing machine capable of maintaining a
air-pressure heat test. Fluids acceptable as heating media for
constant rate of loading of 42 to 74 N/s (600 to 1000 lbf/min)
one test may be hazardous when used for the other test.
or a constant rate of crosshead travel of 0.020 mm/s (0.050
6.1.1 Useonoxygen-pressurechamberconsistingofametal
in./min) 6 25 %. Use a testing machine with suitable grips and
vessel designed to retain an internal atmosphere of oxygen gas
jaws so that the specimen can be gripped tightly and held in
under pressure, with provisions for placing specimens within it
alignment as the load is applied. Fig. 1 shows grips and jaws
and for subjecting the entire chamber to controlled uniform
that have been found satisfactory. Place the testing machine in
temperature. Because of the superior temperature control and
an atmosphere that will not noticeably alter the moisture
heat transfer, a metal vessel completely immersed in a liquid
content of the specimens developed under the conditions
medium is recommended for referee tests. Ensure that the
prescribed in 10.2.
apparatus conforms to the following requirements:
6.3 Air Curing and Drying Oven—Except for some
6.1.1.1 The chamber can be any size; however, it must be
modification, the oven specifications described (in 6.3.1
large enough so that the specimens can be hung within it
through 6.3.9) are the same as those described in Test Method
vertically, without crowding them, letting them touch each
D573.
other, or letting them touch the sides of the chamber.
6.1.1.2 The source of heat is optional, but a location outside 6.3.1 Use an oven whose interior size is (minimum) 0.40 m
3 3 3
(1 ft ) to (maximum) 1.33 m (36 ft ) or any equivalent
of the aging chamber itself is required.
volume.
6.1.1.3 The heating medium is optional. Water, air, or other
6.3.2 Suspend the specimens vertically without letting them
fluids that will not ignite when oxygen is present may be used.
Water has an advantage because it transfers heat rapidly and is touch each other or the sides of the oven.
6.3.3 The temperature variation in various parts of the oven
noncombustible. When using air for the heating medium,
thoroughlycirculatetheheatedairbymechanicallyagitatingit, shall not be allowed to exceed 2°C (4°F).
6.3.4 For the heating medium, use air circulated within the
and use baffles as needed to prevent local overheating and dead
spots. Do not use oils or other combustible fluids as heating chamber at atmospheric pressure.
media for this test because they are extremely hazardous when 6.3.5 Anysourceofairmaybeused,ifitislocatedintheair
oxygen is present. supply outside of the chamber itself.
D3632 − 98 (2011)
8. Sampling
8.1 Sampling Method—When several test specimen panels
are made or films cast and groups of individual specimens are
aged for different time intervals, mix all the specimens in a box
and draw at random from the box for assignment to a given
group.
8.2 Sample Size—Use at least five test specimens to deter-
mine the original physical properties of each sample. Also use
five or more specimens of the same material for each exposure
period of the test. But for purposes of statistical analyses
described in a later section, the number of specimens in the
control group and in each aged group should be the same. The
user may increase the number of specimens in each group in
response to the size of the property change to be detected, the
degree of confidence desired, and the test result variability.
This subject is further considered in Annex A1.
9. Test Specimens
9.1 Lap-shear test specimens must be made from the same
adherends and adhesive materials that are actually used in
FIG. 1 Grips and Jaws
service. A tension lap-shear specimen made like the ones in
Fig. 2 and Fig. 3 is recommended. Methods for preparing
wood-to-wood specimens are similar to those described in Test
6.3.6 Install a thermometer in the upper central portion of
Method D2339 with modifications to accommodate mastic
the chamber, near the center of the specimens, to measure the
consistency adhesives.
actual temperature.
6.3.7 Use a thermostat to control the temperature automati-
9.2 Wood-to-Wood Test Panel Preparation:
cally.
9.2.1 Cut the veneer into suitable sizes and assemble it in
6.3.8 Circulate the heated air throughout the oven by
pairs with the grain direction of the two sheets parallel to each
mechanically agitating it. When using a motor-driven fan, the
other. Fig. 4 shows a size that has been found convenient, and
air must not come in contact with the fan motor brush
in this case the grain is parallel to the shorter dimension. Make
discharge because there is danger of ozone forming.
sure the veneer is within 61 % of the moisture content
6.3.9 Use baffles where they are needed to prevent local
recommended by the manufacturer of the adhesive. When the
overheating and dead spots.
manufacturer does not give a recommendation, use a moisture
content of 10 to 12 % based on ovendry weight in accordance
7. Materials
with Sections 122 to 125 of Test Methods D143.
7.1 Adhesive, the adhesive to be tested.
7.2 Wood for wood-to-wood and wood-to-metal specimens,
rotary cut, sliced or sawn and jointed veneers 3.2 to 6.4 mm ( ⁄8
to ⁄4 in.) thick, shall be free of defects such as knots, cracks,
short grain, or any discolorations or soft spots indicative of
decay. The species to be used will be decided by the adhesive
manufacturer or by the party requesting these tests. Generally
a high-density wood such as Douglas-fir, hemlock, southern
pine, or yellow birch is desirable.
7.3 Metal for wood-to-metal specimen dimensions be 1.6 to
1 1
3.2 mm ( ⁄16 to ⁄8 in.) thick. The metal will be selected by the
adhesive manufacturer or by the party requesting the test,
except that the metal used shall not be reactive as, for example,
magnesium plate.
7.3.1 The mill finish or chemical treatment of the surface
Metric Equivalents
should be the same as the material expected to be bonded in
Dimension Tolerance Dimension Tolerance
service with finish or surface treatment to be selected by the
mm in.
A 82.6 ±0.25 3.25 ±0.010
adhesive manufacturer or by the party requesting the test,
B 25.4 ±0.25 1.00 ±0.010
except that lubricants or other combustible materials shall be
C 3.17 ±0.10 0.125 ±0.004
removed from the surface by solvent cleaning before exposure
in the oxygen-pressure vessel. FIG. 2 Wood-to-Wood Tension Shear Test Specimen
D3632 − 98 (2011)
9.2.4 Pressure will vary according to the viscosity of the
uncured adhesive. Apply enough pressure to the joints to
reduce the glueline to 0.4 to 0.8 mm (0.015 to
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