The application of graphite crucibles in the semiconductor industry is crucial, as their unique properties and wide range of applications make them a key tool in the semiconductor manufacturing process.
In the semiconductor manufacturing process, it is mainly used to carry and protect semiconductor components, ensuring their stability and safety in high-temperature environments. By using the handle and fixed bracket at the bottom of the graphite crucible, it is easy to place and fix a large number of semiconductor components, achieving efficient production processes.
As an ideal thermal and electrical conductor, it can effectively conduct heat and current from the outside of the device to the internal semiconductor components. This efficient transmission mechanism helps to achieve accurate heating and current control of semiconductor components, thereby improving the performance and quality of semiconductor devices.
Graphite crucibles can accommodate a large number of semiconductor components, allowing the equipment to process multiple components simultaneously, thereby significantly improving production efficiency. In addition, the high thermal conductivity and conductivity of graphite crucibles make the heating process faster and more uniform, further shortening the production cycle.
Graphite crucibles play an important role in semiconductor surface treatment. For example, by heating organic matter in a graphite crucible, a thin film can be formed to treat the surface of semiconductor chips. This processing method can greatly reduce waste generation, lower energy consumption, and improve processing efficiency. At the same time, the double walled column design of graphite crucible can strictly control the temperature of surface treatment, making the treatment process more accurate.
Excellent high temperature resistance: able to withstand extremely high temperatures, with a melting point of up to 3650 ℃ and a boiling point of up to 4827 ℃
Good thermal conductivity: With excellent thermal conductivity, it can quickly and evenly transfer heat to various parts of the crucible
Excellent chemical stability: has strong resistance to corrosive substances such as acids and bases, and is not easily corroded or damaged
High mechanical strength: It has high mechanical strength and can withstand certain pressure and impact
Good thermal shock stability: It can maintain good thermal shock stability and is not easily cracked or damaged due to rapid temperature changes
Environmentally friendly and pollution-free: No harmful gases or waste will be generated during use, and there is no pollution to the environment