Graphite Cone

Advantages of graphite cone

Excellent heat resistance

It can maintain structural stability within a wide temperature range of -200°C to 1600°C in non-oxidizing environment. It will not undergo deformation or performance degradation due to drastic temperature changes.

Balanced electrical and thermal conductivity

It is capable of efficiently conducting current and quickly transferring heat, making it suitable for scenarios that have high requirement.

Strong chemical inertness

It is unlikely to react with corrosive media, allowing it to be used for a long time in harsh environments.

High structural precision

With a regular conical shape and excellent surface smoothness, these enables it to precisely meet the assembly requirements of equipment.

Reliable mechanical strength

Its impact resistance and compressive strength are superior to those of ordinary graphite products. When used as a support or positioning component, it is less likely to be damaged.

Uses of graphite cone

High-temperature industrial fields

Heating equipment electrodes

In electric arc furnaces and high-temperature sintering furnaces, you can serve it as connection or conductive components for electrodes. With high-temperature resistance and excellent conductivity, it can withstand the high temperatures inside the furnaces, ensuring heating efficiency.

High-temperature sample support

In material science experiments, you can use it as a sample support component in high-temperature environments. It can support small metal samples and assist in heat transfer, and ensure uniform heating of the samples.

Electronics and semiconductor fields

Precise positioning components

In semiconductor wafer processing equipment, you can serve it as auxiliary positioning cone structures for wafers. It can avoid scratching the wafer surface, while also withstanding local high temperatures during the processing.

Heat dissipation auxiliary components

With the thermal conductivity, you can serve it as local heat dissipation structures in some high-power electronic components. It can conduct the heat generated by the components to the heat dissipation main body, assisting in controlling the component temperature.

Chemical and electrolysis fields

Electrolytic cell auxiliary electrodes

During the electrolysis of non-ferrous metals such as electrolytic aluminum, you can use it as auxiliary electrode components. Due to the chemical inertness, it can guide the current, withstand local high temperatures and extend the service life.

Chemical reaction vessel accessories

In some high-temperature chemical reactions, you can serve it as flow guiding or supporting cone components within the reaction vessel. It guides the reaction materials and supports the catalyst carrier, and does not undergo chemical reactions with the reaction medium.

Mechanical and general industrial fields

Positioning and sealing auxiliary components

In mechanical assembly

You can use it as positioning cone components for equipment components, which ensures assembly accuracy.

In some pipe or container sealing scenarios

It can serve as auxiliary sealing components, which can cooperate with sealing materials to enhance the sealing effect.

Wear-resistant components

In low-speed rotating machinery, you can use it as small wear-resistant cone components. Because of the low friction characteristics, it can reduce component wear and lower maintenance costs.