new energy vehicle.

New energy vehicle manufacturers are increasingly using advanced ceramics as an alternative to metals because of its high mechanical strength as well as thermal and electrical properties, making it a reliable, durable and cost-effective component for developing and manufacturing today's demanding high-tech new energy vehicle applications.

Antenna, microwave and RF components.
Automotive Sensor Systems.
Ceramic parts for body structures.
Automobile engines and drivetrains.

energy supply.

In power plant engines and turbines or in photovoltaic systems, solar thermal energy conversion, wind and hydroelectric systems, advanced ceramics can withstand extreme temperatures and mechanical stresses to become reliable accessories.

Valves and valve assemblies.
Vacuum breakers and capacitors.
Ceramic balls and bearings.
Seal assembly ring and protection tube.
Insulation rings and insulation components.

Equipment and Engineering.

Advanced ceramics offer excellent dimensional stability, strength and hardness. Parts made from ceramics are resistant to extreme heat, physical and chemical wear and corrosion during use, which allows them to be used in a wide range of industrial facilities and equipment.

Electrically insulated parts.
Bearing and bushing assemblies.
Insulators and tubes.
Wear-resistant parts.

Advanced Ceramics in Equipment and Engineering

aerospace.

From instrumentation and control systems to engine monitoring, guidance systems and satellite positioning equipment, the superiority of advanced ceramic materials can provide a real advantage to leading companies in the global aerospace industry.

Antenna, microwave and RF components.
Electronic systems and lighting.
Engine and control system.
Roller bearings.

Advanced Ceramics Alumina Zirconia Silicon Nitride Aluminum Nitride Boron Nitride Ceramics

Why use advanced ceramics?

High hardness

Most advanced ceramics are harder than conventional metals.

bottom of the density scale

Most advanced ceramics are less dense than conventional metals.

electrically isolated

Most advanced ceramics have excellent dielectric properties.

heat-resistant

Advanced ceramics can generally be used at high temperatures.

high strength

Most advanced ceramics have extremely high compressive strength.

Learn more about ceramic properties

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Advanced ceramics are changing the world.

Advanced ceramics are often used to replace metals, polymers and refractory materials in a variety of applications due to their excellent resistance to high temperatures, high hardness and electrical insulation properties.