Vibrated Graphite Block

Advantages of Vibrated Graphite Block

Typically, it is in the form of blocks, cylinders or irregular shapes, and its advantages are very prominent.

Excellent thermal stability

It can maintain stable performance within an extremely wide temperature range of -200℃ to 2800℃ in non-oxidizing atmosphere.

High volume density

Because of this, it has a uniform and dense structure, which makes it has strong impact resistance.

Stable chemical properties

It is not prone to reactions in corrosive media such as acids and alkalis.

Excellent electrical and thermal conductivity

It can quickly conduct current and heat, which is crucial in applications such as high-temperature heating and conductive electrodes.

Great wear resistance

It can adapt to long-term friction conditions.

Good mechanical processing performance

According to your specific requirements, you can further process it to meet your size and operating conditions.

In addition, you can also choose ordinary-purity vibrated molded graphite block, high-purity vibrated molded graphite block, special-shaped vibrated molded graphite block, or other types of vibrated molded graphite block.

Uses of Vibrated Graphite Block

Metallurgical field

Electrode for electric arc furnaces

It has high conductivity and high-temperature resistance, which makes it achieve efficient conversion of electrical energy to thermal energy. Because of that, you can use it as a core component in steel and non-ferrous metal smelting.

Furnace lining materials

You can use it to build the inner lining of metallurgical furnaces. Because of its resistance to thermal shock and corrosion, it can extend the service life of the furnaces.

Photovoltaic and semiconductor field

Thermal field components of single-crystal silicon growth furnaces

You can use it in graphite crucibles, heaters, and insulation tubes. Its high-purity materials can avoid contaminating the silicon material and ensure the quality of single-crystal silicon.

Semiconductor wafer carrier platforms

You can utilize its uniform thermal conductivity to ensure consistent heating of wafers during processing.

Chemical field

Reaction vessel linings and heat exchanger components

It can transfer heat in strong acid and strong alkali reaction environments, while protecting the equipment body.

Anode plates of electrolytic cells

It can withstand high temperatures and strong corrosive environments during electrolysis, and then improve electrolysis efficiency and product purity.

Mechanical and mold field

High-temperature mold materials

Because it can withstand repeated cold and hot impacts, you can use it in non-ferrous metal die-casting molds, glass forming molds, etc. to ensure mold accuracy.

Wear-resistant components

You can use it to make various mechanical sealing rings, bearings, etc. Due to its self-lubricating properties, it can reduce wear and lower equipment maintenance costs.