Application Depending
on the supply form of your TherMark product,
different application methods are used to
transfer our laser marking material to your
substrate. TherMark products are mostly
liquid or paste inks except for
LMM6018.LF,
LMM200,
and
LMC26o
which are tape products. Most of the ink
products can be applied to the substrate
either by spraying or painting with a foam
brush. Two of these products,
LMM14
and
LMM6000,
come in aerosol cans and can be used
directly. As well as traditional ink
products TherMark also has specialty inks
for pad printing and screen printing. See
each section below for detailed application
instructions by supply form.
Clean the surface to be marked (all
products)
No matter which product and supply form
you choose, the process of bonding
between laser marking material and
substrate occurs at a molecular level so
it is important the substrate be free of
all kinds of contamination such as oil,
debris or coatings. Consequently, the
substrate should be thoroughly cleaned
before application of TherMark laser
marking material: the quality of your
mark strongly depends on the cleanliness
of the substrate prior to material
application. Depending on the substrate,
it should be cleaned with a solvent such
as alcohol or rinsed with soap and water
and completely dried. Be careful not to
use a cleaning agent that leaves a
residue behind.
Foam brush application
 Most
TherMark laser marking materials
come as liquid or paste ink in a
variety of container sizes.
Depending on the application and the
industrial setting a regular foam
brush can be an easy choice for ink
application. To apply the ink soak
the foam brush less than 1/4th
of its length (less than 0.25”) into
the container. There is no need to
soak more than that, otherwise the
ink may splash and result in an
uneven coat thickness. Apply with
smooth, even strokes. When applying
ink with a foam brush the two most
important variables to control are
dilution and coat thickness.
The second major issue is coat
thickness and consistency. Desired
coating thickness varies by product
and substrate so it is important to
consult the individual page for your
product for exact guidelines prior
to application. Most of the time one
or two coatings are enough, but for
some substrates additional coats may
be required. You will achieve better
marks using our recommended coating
thicknesses than simply applying
more ink. If your material coating
is too thick it will absorb too much
laser energy and fail to bond to the
substrate. If your material coating
is too thin the pigment density of
the material layer will not be high
enough to create an optimal mark. It
is important to realize that correct
coat thickness is often even more
important than the accuracy of laser
settings for creating optimal marks.
 After
application, allow the applied
marking material to dry. Unaided air
drying typically requires several
minutes. A fan, heat gun, or hair
dryer can be used to accelerate the
process to 10 seconds or less. It is
important the marking material be
completely dry prior to laser
marking.
Two TherMark products are for sale as
aerosol sprays,
LMM14
and
LMM6000.
Aerosol cans attract many customers due to
their relative ease of handling and stand
alone nature. Both of these products are
also available as liquid/paste ink, but
aerosol cans
 have
the added benefit of removing the variable
of dilution. However, aerosol products still
require some experimentation to learn the
application process and generate
reproducible and consistent results.
Shake the aerosol can thoroughly before
use to achieve a homogenous suspension
of marking material inside the can.
Spray uniformly at a 10” distance from
the surface and move the nozzle from one
side to the other covering the whole
substrate area. Start spraying away from
the area to be marked and move towards
the opposite side and past the target
area. Over-spraying before and after the
target area allows constant velocity of
movement and will help provide an even
coating on the substrate. As in all
liquid/paste ink products, consistency
in application process is important for
the quality of the mark.
Again, desired coating thickness varies
by product and substrate so it is
important to consult the individual page
for your product for exact guidelines
prior to application. Generally,
however, the optimal wet film layer
thickness for metals is about 0.5 – 2
mils. As both aerosol products are for
use on metal, one or two coatings are
typically enough. You will achieve
better marks using our recommended
coating thicknesses than simply applying
more ink. If your material coating is
too thick it will absorb too much laser
energy and fail to bond to the
substrate. If your material coating is
too thin the pigment density of the
material layer will not be high enough
to create an optimal mark. It is
important to realize that correct coat
thickness is often even more important
than the accuracy of laser settings for
creating optimal marks.
Allow the applied marking material to
dry. Unaided air drying typically
requires several minutes. A fan, heat
gun, or hair dryer can be used to
accelerate the process to 10 seconds or
less.
A note on safety: All aerosol
sprays represent airborne liquid
droplets and solid particles. During the
spraying process this matter “floats” in
the air. You should exercise the same
precautions you would working with any
kinds of aerosol: use in a
well-ventilated area or use a breathing
mask, never spray towards yourself, and
wear gloves.
 TherMark
liquid/paste inks can be diluted to a
viscosity appropriate for airbrushing.
This method is preferable to foam brush
application for any job larger than a
few parts. In industrial settings, air
brush application should be carried out
in a spray booth with fume extraction,
or, at minimum, in a well-ventilated
area with a breathing mask.
Self-adhesive tape
 TherMark’s
self-adhesive tape,
LMM6018.LF,
removes the variables of dilution and
coating thickness during application, making
it the easiest product to use.
To apply,
unroll a sufficient amount of tape to cover
the surface area to be marked and stick it
down carefully. It is important the tape
have uniform contact with the substrate
surface otherwise some areas may not bond
properly during laser marking. Care should
be taken to remove any air bubbles from
under the tape: smoothing down gently with
fingers should be adequate to remove air
bubbles. If you wish to mark on a surface
that is highly irregular with too many bumps
or crevices, self-adhesive tape may not be
appropriate because uniform tape to
substrate contact may be impossible.
Pad printing
ink
In a production environment, pad printing is a commonly used process for quickly and consistently applying a wet film of material over a relatively small area (approximately 6 square inches). TherMark has developed specially formulated materials which can easily “drop-in” to a standard pad printing process. The LMP500 inks are designed to deliver the appropriate thixotropy for pad printing and are conveniently packaged in small sizes which can be used to fill the pad printer’s ink cup without unnecessary mixing, dilution and wastage.  The
ink cup of the pad printer should be
completely filled with the TherMark
material. The ink requires minimal mixing as
this takes place during the normal printing
process. The pad printer can then be used as
normal with the appropriate mask for the
image being printed. To avoid having to
align the laser to the printed image, we
normally recommend that a “block” of
material is printed on the part. The laser
is then used to bond the exact graphic
image; following this, the excess materials
are easily washed away using an appropriate
washing agent.
To ensure the correct wet film thickness, it
may be necessary to do multiple passes with
the pad printer, depending on the substrate
and darkness of mark required. This is
easily achievable due to the fast drying
times of the ink (<3 seconds).
Because of the nature of pad printing inks,
TherMark recommends that excess materials
are removed from the part using a
Brulin Safety Clean solvent.
For cleaning the equipment and tooling
between shifts, there is also a recommended
thinner which can be purchased from
TherMark.
Screen
printing ink
 Where
the application requires printing materials
over a large surface area such as a control
panel or fascia, screen printing offers a
quick and consistent method. TherMark has
material formulations which are specifically
designed to work with a standard silk screen
printing process.
LMM6012
ink has the appropriate thixotropy for
screen printing but may require some mixing
and dilution before manually applying onto
the silk screen. Because of the open nature
of the screen printing process, it will also
be necessary to periodically thin the inks
over the course of a production shift. For
thinning and cleaning, the following thinner
that can be purchased from TherMark (1588
Medium).
The liquid coat will be consistently applied in a single pass, the thickness being controlled by the printer’s mechanical settings such as “snap off”. The inks should be mixed to avoid bubbles that can cause “fish eyes” and, as with all materials, the surface being printed should be free from any debris or contamination. |
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| Last Updated: 02/09/2011 | |