Graphite Die Mold

Advantages of Graphite Die Mold

Отличная термическая стабильность

Graphite die molds can maintain structural stability within an extreme temperature range of 1200°C to 2800°C without deformation or failure.

Отличная теплопроводность

It can quickly conduct heat during the molding process, which ensures uniform heating of the workpiece and improves molding consistency.

Chemical properties are inert

It mostly does not undergo chemical reactions and is not easily corroded.

Высокая точность формовки

It can achieve control of micro-meter-sized cavity dimensions, which is suitable for the molding of complex-structured workpieces.

Низкий коэффициент трения

Due to the low demolding resistance, it can reduce surface damage of the workpiece and improve the yield rate.

Высокая механическая прочность

It has outstanding wear resistance, so it can maintain stable performance even under long-term high-frequency usage.

Uses of Graphite die Molds

Metallurgical casting field

Used for casting and forming of non-ferrous metals and ferrous metals

Because of its high-temperature resistance, you can use it for aluminum alloy wheels, copper alloy pipe fittings, precision cast iron parts, etc. It can withstand the high-temperature scouring of metal molten liquid, and ensure the rapid cooling and forming of the castings. While it can also reduce defects such as pores and shrinkage cavities, and improve the qualification rate of the castings.

Semiconductor electronics field

Used for the packaging and forming of semiconductor chips, integrated circuits, electronic components, etc.

It can avoid impurity contamination of semiconductor materials, which ensures the dimensional accuracy of electronic components. So it is suitable for chip bases, electronic sensor casings, semiconductor wafer carriers, etc.

Powder metallurgy field

As sintering molds for metal powders and ceramic powders

It can maintain structural stability during the high-temperature sintering process, which is used for hard alloy tools, magnetic materials, etc. And it provides precise forming space for the sintered parts, improving the density and mechanical properties of the sintered parts.

Mechanical manufacturing field

Used for the mass production of mechanical parts such as gears, bearing sleeves, precision fasteners, etc.

It can achieve efficient batch production, reducing the processing cost of mechanical parts, ensuring the consistency of part dimensions.

Новое энергетическое поле

Used for the forming of lithium battery электроды, fuel cell components, solar cell component forming, etc.

Due to the conductivity and chemical stability, you can use it as lithium battery positive electrode sheet molds, fuel cell bipolar plate molds, etc. It can help to improve the performance and service life of new energy devices.

Аэрокосмическая отрасль

Used for the forming processing of aerospace components

It has the high-temperature and high-pressure resistance, which are suitable for the extreme processing environment of aerospace materials. So you can use it for titanium alloy components, high-temperature alloy blades, aerospace engine exotic parts, etc.