Advantages of extruded graphite plate
It has long strips, regular plates, or thickened plates, which comprehensive performance advantages is very significant.
Extremely strong high-temperature thermal stability
It can maintain structural stability within an extremely wide temperature, which does not soften, deform or bend at high temperatures.
High density and uniform structure
It has excellent high-temperature oxidation resistance and outstanding thermal shock resistance.
High hardness
It has good compressive strength, strong mechanical structural stability, which is not prone to damage.
Excellent uniform thermal and electrical conductivity
With stable heat conduction efficiency, it can quickly and evenly balance the temperature field inside the furnace.
Uses of extruded graphite plate
High-temperature furnace body field
Insulation and support for the furnace body
Because of its dense structure and strong ability to withstand high-temperature deformation, it effectively prevents the high temperature from spilling out. You can use it as an inner lining barrier, insulation pad, and load-bearing support plate inside the furnace. It can provide comprehensive protection for the Fırın shell and external precision components, significantly improving the stability and safety.
The field of photovoltaic semiconductors
Equipment base and heat insulation component
It has high purity, no impurity precipitation at high temperatures, and excellent thermal stability, so you can use it as the equipment support base and heat insulation structural component. It can precisely and stably maintain a constant temperature environment inside the furnace. And it avoids heating contamination of the workpieces and temperature deviations, effectively ensuring the processing accuracy and production yield.
Metallurgical Electrolysis Field
Conductive electrodes and liners
You can use it in processes such as electrolysis of non-ferrous metals, purification of precious metals, and high-temperature metallurgical melting. With uniform and stable conductive performance, it is resistant to erosion by molten metals, having high structural strength. It can adapt to harsh industrial conditions, stabilize the conductive efficiency, which improves the continuity of electrolytic metallurgical processes. You can use it as conductive plates and furnace liners for a long time to ensure the quality and stability of metallurgical production.
Mechanical high-temperature industrial field
High-temperature structural components
You can make it into high-temperature insulation plates, sliding rail pads and sealing linings. With high hardness, strong wear resistance, resistance to deformation, and good thermal stability, it can effectively resist high-temperature friction damage. And it also reduces equipment structural wear and loss, which decreases the frequency of equipment failures and maintenance costs.
The field of new materials and chemical engineering
High-temperature reaction equipment lining
Because of its extremely strong chemical inertness, You can use it as an inner lining protection material for high-temperature reaction vessels, carbonization furnaces, and sintering equipment. It effectively resists medium erosion, protects the main structure of the equipment, which stabilizes the production process.