Types and applications of silicon nitride sheets
Silicon nitride plate is made of silicon nitride material through hot pressing and cold pressing. It has the characteristics of low melting point, high heat resistance, high hardness and high oxidation resistance. It can be used for high-precision optical instruments and electronic equipment in the semiconductor and electronics industries. The manufacture of components can also be used in aerospace and other high-tech fields.
There are many types of silicon nitride sheets, which are divided into low melting point silicon sheets, medium melting point silicon sheets, and high melting point silicon sheets according to their melting points; divided into microelectronic silicon sheets, electronic component silicon sheets, precision instrument silicon sheets, and aerospace Silicon sheets, automotive industry silicon sheets and other silicon sheets.
Silicon nitride plates are widely used in the semiconductor and electronics industries for the manufacture of high-precision optical instruments and electronic components; in the aerospace field for the manufacture of space probes, etc.; in the automotive industry for the manufacture of automotive interiors Parts; in the consumer goods industry, used to manufacture precision instruments such as cameras and mobile phones.
Due to its low melting point, high heat resistance, high hardness, high oxidation resistance and other characteristics, silicon nitride plate is an important raw material for the electronics industry, aerospace industry and automobile industry, and is also an important part of precision instruments. It plays an important role in modern technology. play an increasingly important role.
Silicon nitride plate is a new type of high-performance, high-stability material, which is composed of silicon nitride crystals and graphene, and has a variety of advantageous properties and special uses. Silicon nitride plate has the advantages of high temperature resistance, corrosion resistance, reduced friction coefficient and wear resistance.
Silicon nitride plate has the advantages of high temperature resistance, corrosion resistance, reduced friction coefficient and wear resistance. It can work under extreme temperature, can resist corrosion in air, and can reduce friction coefficient and improve wear performance. It can be used in many fields such as automobile manufacturing, aerospace, electronic engineering, metallurgical industry, and chemical industry. For example, it can be used in the manufacture of automotive engine parts to improve engine performance; it can also be used in aerospace to make spacecraft shells to resist the extreme temperature and radiation of the space environment; it can also be used in electronic engineering for Manufacture electronic components, increasing the durability and reliability of components.
Silicon nitride plates are very different from ordinary steel plates. First, the thermal stability of silicon nitride plates is much higher than that of ordinary plates. Secondly, silicon nitride plates are also superior in terms of corrosion resistance and wear resistance. Much stronger than normal board, it also has properties that reduce the coefficient of friction, making it widely used in many professional environments.
During silicon nitride sheet manufacturing, excessive heat is avoided to prevent material failure. In addition, during the manufacturing process, contamination with contaminants should be avoided as much as possible, since contaminants can negatively affect the properties of the material. In addition, excessive stretching and compression should be avoided during the silicon nitride sheet manufacturing process, so as not to damage the structure of the material.
Silicon nitride sheet can be used in many industries and fields, it can be used in automobile manufacturing, aerospace, electronic engineering, metallurgical industry, chemical industry, electric power industry and many other industries and fields. Silicon nitride sheets can be used to manufacture engine parts, spacecraft casings, electronic components, etc. to improve product performance and reliability.