Thermal conductive tape in die-cutting processing plants has been widely used in various productions due to its good properties. First of all, when used in LED products, due to the light-emitting and heating characteristics of LED products and their demand for transparent colloids, many colloids cannot meet the requirements. Only colloids that are heat-resistant and have good heat dissipation properties can prevent the use of LED products from being restricted, thus improving the product life cycle. Good heat dissipation also enables the product to ensure safety.

Thermal conductive tape, also known as thermally conductive double-sided tape, has high thermal conductivity, high viscosity, and low thermal resistance. It can effectively replace thermal paste and mechanical fixation properties and is used to fill uneven gaps between heat sources and metal products, and Take away the heat generated by electronic products to achieve cooling and heat dissipation effects.

Among them, thermally conductive tapes can be divided into those with base materials and those without base materials. Common compositions include pressure-sensitive adhesives with acrylic base and silicone base. Acrylic-based thermal conductive tape is suitable for porcelain and metal interfaces, while silicone-based thermal conductive tape is often used for plastic contact surfaces.

In addition, the common reinforcing materials for thermal conductive tape are glass fiber or Polyimide to increase stiffness and withstand voltage. It is also widely used in radiators. Many electronic products, such as mobile phones and computers, will generate a lot of heat due to their high-speed operation during use. General colloids are difficult to satisfy, causing various spontaneous combustion or explosion events due to poor heat dissipation. Therefore, it is good High-performance colloids are the prerequisite for the use of these products.

Thermal conductive tape is used in various product materials that require strong adhesion. The combination of some materials requires special colloids, which are difficult to meet with ordinary colloids. All thermal conductive tapes with strong adhesion are welcomed.

Thermal conductive tape is often used to adhere small or slender electronic components. Because of its thermal conductivity and adhesive functions, it is suitable for small chips on computer motherboards, small heat sinks for image display cards, or panels for backlight modules, etc. . Early chips did not require heat dissipation devices as electronic products continued to improve in performance and shrink in size. As the demand for heat dissipation increases day by day, small cooling fins are used, which is also one of the most commonly used applications of thermal tape.

How to use thermal conductive tape:

1. First measure the required area and cut it according to its length and width.
2. Tear off the adhesive film and stick it as smoothly as possible between the heat-generating product and the heat dissipation device.
3. If the heat dissipation device is larger in size and heavier in weight, it is recommended to use a fixing bracket before the glue is applied to prevent the heat dissipation device from falling off.
Where can thermal conductive tape be used?
Product features: Good adhesion and thermal conductivity, easy to operate.
Application: LED lights, backlight modules, IC and other products.
Advantages of thermal conductive tape: 1. It is easy to operate when used for thermal connection between LED chips and radiators, and solves the problems of difficult operation of thermal conductive paste, uneven application, and overflow of glue causing defective products. 2. Can replace screws, buckles and other fixing methods.