Do you want to know about Acrylic Thermal Pad?

1. Definition and characteristics

The biggest highlight of non-silicone thermal pads is that there is no siloxane volatilization and no silicone oil precipitation. It can be called a non-oil seepage and pollution-free thermal pad, especially suitable for applications that are sensitive to silicon.

Its characteristics can be summarized as follows:

• No silicone oil component: effectively avoids the risk of silicone oil volatilization and migration causing contamination to sensitive components.

• Excellent thermal conductivity: Even if it does not contain silicon elements, it still has excellent thermal conductivity and can efficiently transfer heat.

• Strong reliability: In high temperature environments, it shows excellent aging and wear resistance, and its long-term performance remains stable and reliable.

• Significant environmental advantages: The entire process of production and use is more environmentally friendly, reducing the potential harm of silicon-based compounds to the environment.

• Low volatility and oil yield: During long-term operation, the small molecules of siloxane evaporate very little and the oil yield is low, which effectively ensures the stable operation of the equipment.

• Good self-adhesion and temperature resistance: Most non-silicone thermal pads have good double-sided self-adhesion, are easy to install, and can maintain stable performance over a wide temperature range.

2.Application Fields

Non-silicon thermal pads have a wide range of applications and play a key role in many industries.

• Electronic and electrical industry: In the fields of hard disks, optical communications, high-end industrial control, medical electronics, etc., it is widely used in the thermal management of semiconductor devices, micro heat pipe radiators, memory modules and other products. It effectively prevents the volatilization of silicone oil from polluting sensitive components such as screens and lenses, and ensures the stable operation of the equipment.

• Automotive electronics: Automotive electronic components have strict requirements on temperature and environment. Non-silicon thermal pads can provide reliable heat dissipation support under harsh conditions to ensure the normal operation of automotive electronic systems.

• Telecommunications equipment field: In special fields such as telecommunications hardware and equipment, its excellent thermal conductivity and high reliability make it an indispensable and important part of thermal management solutions.

3. Advantages and Challenges

Non-silicon thermal pads have many advantages. They eliminate silicone oil pollution and provide an ideal solution for silicon-sensitive applications. They have stable performance under high temperature and high pressure environments and are suitable for long-term continuous working scenarios. At the same time, the production and use process is environmentally friendly and pollution-free. However, its complex production process leads to high material costs and a higher price than traditional silicone pads. In addition, its acceptance in the market needs to be further improved, and it will take time to popularize it.

4. Development Prospects

As a new type of thermal conductive material, non-silicon thermal conductive pads are becoming increasingly prominent in the electronics industry. With the continuous innovation and development of technology and the gradual improvement of market awareness, non-silicon thermal conductive pads are expected to play an irreplaceable and key role in more fields. It will continue to promote the innovation and progress of electronic equipment heat dissipation technology and inject strong impetus into improving equipment performance and reliability.