If ink overlay occurs, ink/color strength will be impaired when the transfer is heat fused onto the garment. Plastisol heat transfers are mostly printed on specially prepared transfer papers.  Transfer papers must be very stable when exposed to moisture and heat.

Heat Sink for Rear and Fog Lights Design freedom, metal replacement and Thermally Conductive Formulations provide powerful solution for Elausa Electronics

Colorant Chromatics™ is a market leader in coloring fluoropolymers and high-temperature polymers, with formulations that can provide robust material performance and ultra-high-heat resistance without compromising safety, extending the product shelf life in cables in demanding industries such as aerospace, oil and gas, telecommunication, and building and construction   Additional featured solutions include Colorant Chromatics™ UV Laser Marking Additives, Colorant Chromatics™ Conductive Formulations, Colorant Chromatics™ ECTFE / ETFE Colorants, and PEEK and PEI-Siloxane (SILTEM™ resin*) Colorants & Pre-colored Solutions

Therma-Tech™ Thermally Conductive Formulations Heat transfer capabilities of metal with design freedom and weight reduction of engineered polymers

Heat Sink for Rear and Fog Lights Design freedom, metal replacement and Thermally Conductive Formulations provide powerful solution for Elausa Electronics

Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. This is because the molds must be made of higher quality materials, must be able to withstand the heat and pressure of the pultrusion process, and be produced according to tight machining tolerances.

Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. This is because the molds must be made of higher quality materials, must be able to withstand the heat and pressure of the pultrusion process, and be produced according to tight machining tolerances.

Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. This is because the molds must be made of higher quality materials, must be able to withstand the heat and pressure of the pultrusion process, and be produced according to tight machining tolerances.

Electrical insulation: Fiberglass pultrusions can be engineered to be non-conductive, making them ideal for electrical applications where dielectric properties are required. This is because the molds must be made of higher quality materials, must be able to withstand the heat and pressure of the pultrusion process, and be produced according to tight machining tolerances.

Heat Sink for Rear and Fog Lights Design freedom, metal replacement and Thermally Conductive Formulations provide powerful solution for Elausa Electronics