Custom Graphite Mold

Advantages of custom graphite mold

Usually, it has various forms such as complex cavities, multi-cavity integration, and irregular structures, and its advantages are remarkable.

Excellent thermal stability

It has an extremely small thermal expansion coefficient, which can work under high temperatures for a long time.

Stable chemical properties

It can resistant to strong acids, strong alkalis, and erosion from high-temperature molten metals.

Excellent self-lubrication properties

It can reduce the adhesion between the molding material and the mold cavity which enables smooth demolding.

Easy to achieve precise processing

You are able to create the fine patterns and special exhaust channels according to drawings.

Highly durable

It can maintain cavity accuracy even under long-term high-frequency forming.

Uses of custom graphite mold

Electrical and electronic field

Chip packaging

You can use it during the packaging process of semiconductor chips to precisely form the chip packaging base. It has extremely high dimensional accuracy, which can effectively ensure the performance and stability of the chips.

Energy field

Fuel cell component forming

You can use it in the production of fuel cells to form core components such as bipolar plates, separate fuel and oxidant. Due to its chemical stability, it can collect and conduct current, and support membrane electrodes.

Photovoltaic module production

Because of its excellent conductivity and chemical stability, you can use it for the forming of conductive supports in solar panels. Graphite mold can help to improve the photoelectric conversion efficiency and stability of solar cells.

Mechanical industry

Precision part casting

With the excellent high-temperature resistance, corrosion resistance and forming accuracy, it is an ideal mold for manufacturing precision parts in industries. You can use it in automobiles and machine tools for casting of engine non-standard parts, gear blanks and other products. It can effectively ensure the dimensional consistency of the parts and reduce the defect rate.

Wear-resistant parts sintering

It has uniform heat conduction, so it can reduce part deformation and improve mechanical efficiency. Because of that, you can use it as a sintering mold for hard alloy wear-resistant parts.

Chemical field

Catalyst carrier forming

You can use it as a forming mold for chemical catalyst carriers to improve the catalytic reaction efficiency and extend the service life of the catalyst.

High-temperature reaction container accessories forming

With the high-temperature resistance, you can use it in high-temperature chemical reactions to form high-temperature-resistant reaction tank inner lining accessories. It can withstand harsh environments such as high temperatures, improving the safety and quality of chemical production.