Fiberglass thermal conductive tape is mainly composed of glass fiber and thermal conductive adhesive, which has various advantages such as easy peeling, strong adhesion, thermal conductivity, heat dissipation, and buffering. The glass fiber thermal conductive tape produced by Kanglida can be customized in size according to your specific application to meet the needs of various industries such as retail and personal use. The average monthly production output of fiberglass thermal conductive tape is 20K square meters, and large-scale production requires a lead time of half a month. If you have any questions, you can contact us and our after-sales service will definitely satisfy you. Fiberglass thermal conductive tape has a wide range of applications, mainly suitable for the following four scenarios: the first is the fixation of heating electronic components. Fiberglass thermal conductive tape has the characteristics of thermal conductivity, heat dissipation, and high viscosity, and is often used for fixing heating electronic components. It is commonly used for heat dissipation and thermal conductivity in electronic products. The second type is LED light pasting. LED lights generate heat when powered on. By using our company’s thermal conductive tape, we can attach heating products such as LED tubes to heat dissipation components, resulting in excellent heat dissipation and thermal conductivity. The third type is mainly used in the printing industry. Fiberglass thermal conductive tape with high viscosity and temperature resistance is a commonly used insulation and thermal conductive consumable tape in the tape printing industry. The fourth option is to customize specifications by die-cutting. We can customize die cut sheet thermal conductive tape according to the appearance of electronic products, which is convenient for mass production of products and improves production efficiency. Substrate: fiberglass Substrate thickness: 0.04mm Substrate color: white Substrate paper: blue film Surface adhesion: ≥ 1.0 kg/min Long term temperature resistance: 90 ℃ Short term temperature resistance: 140 ℃ Voltage resistance:>3.8 kv/mm Thermal conductivity:>0.9 w/mk
