IMPORTANT SAFETY NOTICE:
The fluids contained in ACCU DYNE TEST™ marker
pens are considered hazardous materials. Avoid contact with skin.
Use with adequate ventilation. Avoid contact with eyes. Pregnant
women should not perform this test. For further information, refer
to product MSDS or call Diversified Enterprises at 800-833-4644 or
(603)543-0038.
For the results of this test to be meaningful,
the following four points are absolutely essential and must be
followed:
1) Do not touch or in any way contaminate the surface
to be tested. Dirty surfaces lose their wettability.
2) Do not use contaminated or outdated ACCU
DYNE TEST™ marker pens.
3) Never retest the same location on a sample; move
along the sample, or pull a new one.
4) Store and use ACCU DYNE TEST™ marker
pens at room temperature.
1.0 Materials/Equipment
1.1 ACCU DYNE TEST™ Marker Pens
1.2 Subject Material
1.3 Clean Level Test Area
1.4 Thermometer and Hygrometer
2.0 Method
2.1 Pull test sample. Be sure to pull a good specimen;
surface aberrations cause poor results. For extruded film, one entire
web cross-section should suffice. Do not touch the surface.
2.2 Place the sample on a clean, level surface.
If necessary, anchor the edges to avoid curling or other deformation.
2.3 Record ambient temperature and relative humidity.
If sample temperature differs from ambient, allow it to stabilize.
2.4 Test at least three points across the sample;
1/4, 1/2, and 3/4 across the film section. It is good practice to
test the outer edges as well. For non-film materials, test locations
must be determined in-house.
2.5 Determination of Wetting
2.5.1 Choose an ACCU DYNE TEST™ marker
pen of a dyne level you believe is slightly lower than that of the
test sample.
2.5.2 Press applicator tip firmly down on subject
material until the tip is saturated with ink.
2.5.3 Use a light touch to draw the pen across the
test sample in two or three parallel passes. Disregard the first
pass(es); to flush any contamination from the tip, and to ensure
that the test fluid layer is thin enough for accurate measurement,
evaluate only the last pass.
2.5.4 If the last ink swath remains wetted out on
the test sample for three seconds or more, repeat steps 2.5.2 and
2.5.3 with the next higher dyne level marker. If the last ink swath
beads up, tears apart, or shrinks into a thin line within one second
or less, repeat steps 2.5.2 and 2.5.3 with the next lower dyne level
marker. If the ink swath holds for one to three seconds before losing
its integrity, the dyne level of the marker closely matches that
of the sample.
This is a relatively accurate surface energy measurement
technique; used in standard 2 dyne/cm increments, ACCU DYNE
TEST™ marker pens can generally produce results with a precision
of +/- 2.0 dynes/cm. Repeated use of ACCU DYNE TEST™ marker
pens should enable testers to estimate surface energy to within +/-
1.0 dyne/cm.
To investigate discrepancies between obtained and
expected results, a more precise measurement method should be considered;
application of ACCU DYNE TEST™ surface tension test
fluids with cotton swabs (per ASTM D2578-84) or by use of a drawdown
rod is recommended. Alternatively, if results are suspect, replicate
the test with a set of unused markers. This test has proven itself
on a wide variety of substrates; it is, however, theoretically more
prone to contamination than some other techniques. For this reason,
even in the absence of unexpected results, you should establish a
quality assurance plan which calls for regular audits during the
phase-in stage of ACCU DYNE TEST™ marker pen use. The
effect of all changeovers from one substrate to another should
be monitored especially closely. Slip and other additives tend to
bloom to the surface of extruded sheets and films; transferring surface-active
additives from one material to another can have a profound effect
on surface energy measurement. In general, once you demonstrate that
a switch from substrate A to substrate B has no effect, it is safe
to assume that future changeovers from A to B will act similarly.
Thus, the frequency of backup audits decreases over time.
Finally, a few qualifying words. Surface energy
is critically important to many converting operations. Unfortunately,
it is not the sole determinant of product suitability. Other factors,
such as surface topography, coating rheology, and chemical incompatibility,
must also be considered. This is why broad-based communications with
vendors and customers is so important. But at least by systematically
measuring substrate surface energy, you will have a sound starting
point from which to resolve other problems which may arise.
1Annual Book of ASTM Standards, Wetting
Tension of Polyethylene and Polypropylene Films.
2Annual Book of ASTM Standards, Conditioning
Plastics and Insulating Materials for Testing.
*ethyl cellosolve is a registered trademark of Union
Carbide Corp. for ethylene glycol monoethyl ether (2-ethoxyethanol).
This report is provided by Diversified Enterprises,
101 Mulberry St., Suite 2N, Claremont, NH 03743. It is intended to
provide quality control information for converters and others who
need to measure surface energy. We believe all information contained
herein is accurate. Diversified Enterprises will not, however, under
any circumstances by held responsible for any losses or damages incurred
by any party using this report.
