Silicon Carbide Coated Graphite

Advantages of Silicon carbide coated graphite

Generally, silicon carbide (SiC) coated graphite takes the form of the forms of blocks, plates or tubes, and has remarkable advantages.

Excellent high-temperature stability

It can remain stable within a wide temperature range of -200°C to 1600°C.

High surface hardness

This makes it an extremely excellent wear-resistant layer. It can reduce friction losses, extend the lifespan of equipment, and improve operational efficiency.

안정적인 화학적 특성

다양한 화학 물질에 대한 내성이 강합니다.

Strong oxidation resistance

You can use it as a high-temperature protective material and it is highly durable.

E뛰어난 열 전도성

This enables it to conduct heat quickly, which is crucial in many high-temperature thermal management applications.

G좋은 전기 전도성

It can stably transmit current in high-temperature and corrosive environments, and is suitable for various conductive scenarios.

Uses of Silicon carbide coated graphite

In the metallurgical field

Silicon carbide coated graphite has strong corrosion resistance and can effectively protect the electrodes from damage. During the operation of metallurgical equipment, it faces high-temperature erosion, so you can use it for electrode protection. It can reduce the probability of equipment failure, and improve performance and stability.

에너지 분야

In high-temperature fuel cells

다음과 같이 사용할 수 있습니다. 양극성 플레이트 to separate the fuel and oxidant, collect and conduct electricity. And it support the membrane electrode, ensuring the long-term stable power generation of the battery.

In nuclear industrial equipment

Because of the radiation resistance and chemical stability, you can use it as structural components or protective materials for 원자로. It can help enhance the safety and stability of nuclear equipment operation.

화학 산업에서

It can be used as an ideal coating material for the inner lining of reaction vessels and heat ex-changer pipelines. Because of the chemical inertness, it can isolate the source of corrosion, protect the equipment base. And at the same time, you can utilize its thermal conductivity to achieve uniform temperature control of the medium. Using it to the electrode surface of an electrolytic cell can enhance the stability of the electrode in a high-temperature. This can enhance the efficiency of electrolysis and the quality of the product.

In the machinery industry

Producing wear-resistant components

Because of the excellent hardness, wear resistance and high-temperature stability, it can be made into metallurgical rollers and wear-resistant liners. And you can widely use it for the wear protection of equipment, pipes, valves and other components in industries. It can reduce component wear and extending replacement cycles.

Protective layer for high-temperature molds

With the high-temperature resistance and anti-adhesion properties, it can reduce mold wear, improve molding accuracy and efficiency.