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Generally, the ribbon and labeling selection
is the most often overlooked decision in a bar code
system, labels peeling off, scanners unable to make
good reads without several retries, or having a label
that scratches or smears too easily. The ribbon and/or
labels need to be suited to the environment and duration
(life expectancy) of the label. Temperature, humidity,
light, abrasion, chemicals, aging, etc. will all affect
the readability of the label.
Most users are familiar with dot matrix and laser
technology. With dotmatrix printers, pin-fed labels
are typically used and with laser printers, sheet-fed
labels are used. However, when it comes to bar coding,
not everyone is as familiar with direct thermal and
thermal transfer printing. With direct thermal printing,
the image is burned directly onto the paper and works
similarly to a traditional fax machine with heat sensitive
paper. With direct thermal printing, the image deteriorates
with time. Thermal transfer printers require a ribbon
which in turn is burned directly onto the facestock.
Labels produced from thermal transfer will last much
longer than labels generated from direct thermal transfer.
Paper labels are the most common and least expensive
facestocks with thermal, dot matrix and laser printing.
Paper facestock is best suited for indoor use and are
a good product for labeling, material management, pricing,
and shipping. Vinyl and polyolefin facestocks are strong
and very resistant to smear and hot and cold temperatures.
They are often recommended for labeling on curved or
irregular surfaces or even underwater applications.
Synthetic labels withstand more abuse the paper facestocks.
They can resist moisture, oil, chemicals, and dirt.
Polyester is extremely impervious to temperature, chemicals,
and dirt. Polypropylene (such as Kimdura) tends to
be more general purpose and less expensive material
than polyester.
Thermal transfer ribbons consist of a protective
back coat, a film, and ink. The back coat of the ribbon
protects the printhead from abrasion and deposit buildup
as well as dissipating heat from the printhead. As
the heat rises from the printhead, the film provides
a good thermal conductivity for the ink while at the
same time prevents the ink from melting or smearing.
The ink primarily consist of wax and resin properties.
Wax based ribbons are predominantly general purpose
and are the most economical. Wax and resin ribbons
provide improved smudge resistance. These ribbons are
priced substantially less than pure resins. Resin ribbons
provide the most durable image currently available.
These formulations generally require increased print
head temperatures.
When purchasing both labels and ribbons, simple
calculations can save both time and money. The length
of a ribbon roll is generally proportional to the length
of a label roll to minimize the number of times in
changing out a ribbon. This ÒlengthÓ ratio is typically
2:1 but is not necessary. The length of the ribbon
roll is usually given, but the same is not always true
regarding the length of the label roll. Generally,
only the number of labels per roll is printed. The
approximate length of the label roll however can be
calculated using the height (W x L) of the label, the
number of labels/roll, and assuming that the space
between the labels is approximately 0.125 inches. The
following calculation can be made:
[ (L" + 0.125") x Labels/Roll] / 12
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