With the development of industrial automation, high temperature resistant sensor is more and more widely used in various harsh environments. When using these sensors, we often encounter a problem: how to protect the sensor elements from high temperatures, corrosion, and mechanical shocks? In order to solve this problem, the traditional practice is to use ordinary silicone for sealing, however, this method has some limitations. Today, a deep, air able silicone heated for 30 minutes is gaining view. Today, we are going to decrypt this technology to explore its application value in the high temperature resistant sensor industry.

1. Problems with the traditional approach

In the past, we have usually used ordinary silicone to seal high temperature resistant sensors. This approach can indeed play a certain protective role, but there are also some problems. First of all, the ordinary silica gel is prone to aging and embrittlement in the high temperature environment, which leads to the decline of the protective performance of the sensor elements. Secondly, the ordinary silica gel curing time is long, the processing process is complex, time-consuming. Because the curing time is too long, it cannot meet the rapid demand in production, resulting in low production efficiency.

2. Advantages of the new technologies

In view of the problems existing in the traditional way, a new type of deep filling silicone technology has emerged. This new silica gel not only has the characteristics of high temperature resistance and corrosion resistance, but also greatly shortens its curing time. This is because the silicone does not need to discharge air before curing, but can be cured by heating for 30 minutes, greatly improving the production efficiency. In addition, this silicone also has good bonding properties, which can effectively protect the sensor elements from mechanical impact.

3. Technology application outlook

The silicone technology of deep filling has great potential in the high temperature resistant sensor industry. First of all, through the application of deep sealing technology, the protection performance of the sensor element has been effectively improved, thus extending the service life of the sensor. Secondly, the substantial shortening of the curing time greatly improves the production efficiency and adapts to the demand of modern industrial production for fast and efficient efficiency. Moreover, this new silica gel technology does not need to discharge air in the process of sealing, which simplifies the processing process and improves the quality stability of production.

4. epilogue

Through the new deep filling silicone technology, we can see the significance of ENIENT EG0508B in the high temperature sensor industry. This new technology not only makes up for the shortage of traditional silica gel in high temperature, corrosion and other environment, but also greatly improves the production efficiency. It is believed that with the continuous progress and improvement of this technology, it will be better applied to the protection field of high temperature resistant sensors and other industrial equipment, and make greater contribution to the development of industrial automation.