In the cold winter, many equipment and materials will become fragile or even fail due to low temperatures. However, the emergence of ethyl silicone rubber provides a new solution for equipment protection in low temperature environments.

Ethyl silicone rubber successfully destroys the crystallization properties of silicone rubber by introducing ethyl groups on the side chains of dimethyl polysiloxane, so that it can still maintain excellent elasticity and mechanical properties at extremely low temperatures. Its lowest glass transition temperature reaches -147°C, which makes ethyl silicone rubber one of the silicone rubbers with the most outstanding low temperature resistance.

In high-latitude areas and low-temperature environments, ethyl silicone rubber is widely used in the manufacture of various low-temperature equipment. Whether it is precision instruments used in aerospace and aviation fields, or equipment used for deep-sea exploration, ethyl silicone rubber has demonstrated its excellent cold resistance. In extreme low temperature environments, ethyl silicone rubber can not only maintain the normal operation of the equipment, but also effectively extend the service life of the equipment.

In addition, the constant elastic modulus and damping coefficient of ethyl silicone rubber make it play an important role in the damping and vibration reduction of precision electronic equipment. With the increasing sophistication of electronic equipment today, the application of ethyl silicone rubber not only improves the stability and reliability of the equipment, but also provides a guarantee for the long-term use of the equipment.

The emergence of ethyl silicone rubber provides a new solution for equipment protection in low temperature environments. Whether it is equipment protection in extreme environments or vibration reduction applications in precision electronic equipment, ethyl silicone rubber will continue to play its unique advantages and provide strong support for human exploration of the unknown world.


To learn more, click here https://www.siliconematerial.net/