DT Thermal Transfer Ribbon TTR
Thermal transfer ribbons for TTO printers. Near edge ribbons have
been developed for high-volume printing processes at high speeds.
Suitable substrates are paper, various plastics and flexible
packaging foils.
The Near edge technology makes it possible to integrate
identification marking directly into the production process. We
offer near edge ribbons that are wax / resin or resin based. these
ink ribbon types have been developed for different stress
requirements and surfaces. resin ribbons are more durable than
wax/resin ribbons.
Companies that distribute large volumes of goods use thermal
transfer printing with near edge ribbons because it guarantees
resistant print, even at high print speeds. It’s used for packaging
in the food industry, among others.
Model | Type | Features |
DG | Wax/Resin | Economical, can well print on most packaging film. |
DC | Premium Wax/Resin | Good adhesive, Cost effective. |
DT | Resin | Super excellent adhesive, suitable for high print requirements |
Standard export carton package, suitable for international sea,
air, fast courier shipping.
For bar code printers using thermal transfer printing, a special
color tape is needed to transfer information such as bar codes and
characters to labels. This special ribbon (commonly known as carbon
ribbon) is generally composed of three parts: base film,
heat-resistant coating and ink coating. It is the carrier of base
film ribbon, and polyester film with a thickness of 4.5μm is
generally selected. Its strength and thickness directly affect the
elongation and application fields of carbon ribbon. The main
function of heat-resistant coating is to insulate heat, reduce
friction, reduce dust attached to the print head, protect the print
head and prolong the service life of the print head. Ink coating is
composed of pigment, resin, wax, additives and other components. It
affects the transfer temperature, printing quality, color of the
ribbon, friction resistance of prints and other main properties of
the ribbon, and is the core of the ribbon. Carbon powder is the ink
component of the commonly used black ribbon, which is why the
ribbon is often called carbon ribbon.
The working principle of thermal transfer ribbon is that the carbon
ribbon is in thermal transfer printer, the heat-resistant coating
is in direct contact with the thermal transfer head, and the
thermal transfer ink is in direct contact with the substrate
(label). When working, the thermal transfer head instantly releases
heat, and the heat of the heat release point is transmitted to the
thermal transfer ink coating through the heat-resistant coating and
base film, and the ink is melted and hot printed on the substrate
to form characters and images. High-quality ribbon has no heat
transfer ink residue in the heated part after transfer.
