Automotive

Semiconductor ceramic shells and ceramic substrates have brought significant assistance and breakthrough innovation to the automotive industry with their unique physical and chemical properties. With the popularization of electric vehicles and autonomous driving technology, they will play an important role in improving energy efficiency, safety and intelligence, further promoting the change and development of the automotive industry.

Improve reliability and durability of electronic systems

High insulation and anti-electromagnetic interference: effectively isolate the interference between different circuits to ensure the accuracy and reliability of signal transmission. It is crucial in engine control units and transmission control units. Ceramic materials can withstand extreme temperature changes without affecting performance, ensuring the stable operation of electronic systems.

Lightweight and high strength

  • Weight reduction: Ceramic materials are generally lighter than traditional metals, but at the same time have higher strength and stiffness, which can improve fuel efficiency or extend driving range.
  • Shock and vibration resistance: For parts that need to withstand shock and vibration, such as sensor housings and brake system components, the high hardness and good compressive strength of ceramic materials make them an ideal choice for manufacturing. They can effectively resist the effects of external forces and extend their service life.

Efficient heat dissipation and thermal management

  • High thermal conductivity: The battery management system, inverter and other key electronic devices of electric vehicles can use the high thermal conductivity of ceramic substrates to help dissipate heat quickly and ensure stable operation.
  • Thermal protection: Ceramic materials can act as highly effective thermal insulators to protect sensitive electronic components from engines or other high temperature sources. This not only improves system safety, but also extends the life of electronic equipment.

Improve reliability and durability of electronic systems

High insulation and anti-electromagnetic interference: effectively isolate the interference between different circuits to ensure the accuracy and reliability of signal transmission. It is crucial in engine control units and transmission control units. Ceramic materials can withstand extreme temperature changes without affecting performance, ensuring the stable operation of electronic systems.

Lightweight and high strength

  • Weight reduction: Ceramic materials are generally lighter than traditional metals, but at the same time have higher strength and stiffness, which can improve fuel efficiency or extend driving range.
  • Shock and vibration resistance: For parts that need to withstand shock and vibration, such as sensor housings and brake system components, the high hardness and good compressive strength of ceramic materials make them an ideal choice for manufacturing. They can effectively resist the effects of external forces and extend their service life.

Efficient heat dissipation and thermal management

  • High thermal conductivity: The battery management system, inverter and other key electronic devices of electric vehicles can use the high thermal conductivity of ceramic substrates to help dissipate heat quickly and ensure stable operation.
  • Thermal protection: Ceramic materials can act as highly effective thermal insulators to protect sensitive electronic components from engines or other high temperature sources. This not only improves system safety, but also extends the life of electronic equipment.

Corrosion and oxidation resistance

  • Resistant to harsh environments: Ceramic materials are chemically stable and resistant to oxidation, and can resist the erosion of these factors for a long time, maintaining surface integrity and functional stability.

Intelligent monitoring and feedback

  • Integrated sensors: Various types of sensors can be integrated on the ceramic substrate, such as temperature sensors, pressure sensors, accelerometers, etc., to monitor the vehicle's operating status in real time. These sensors transmit data to the on-board computer or cloud platform through wireless connection to achieve remote monitoring and diagnosis.
  • Adaptive control systems: Combined with sensor technology and artificial intelligence algorithms, ceramic substrates support the development of adaptive control automotive systems, such as automated driving assistance systems, active safety systems, etc. These systems can automatically adjust vehicle behavior based on real-time monitoring data, providing a more intelligent and safe driving experience.

Breakthrough innovation cases

CMCs

CMCs combine the high-temperature stability of ceramics with the toughness of fiber-reinforced materials and are important materials for the next generation of high-performance automotive engines. It can significantly increase the operating temperature and efficiency of the engine, thereby improving the vehicle’s fuel economy and power performance.

01/08

Self-healing ceramics

Researchers are developing self-healing ceramic materials that can repair themselves when they sustain minor damage, extending the life of components and improving safety.

02/08

Smart Ceramic Sensor

The intelligent sensors integrated on the ceramic substrate can monitor various parameters of the vehicle in real time and transmit the data to the owner or maintenance center through the wireless network. This not only improves the automation level of the system, but also provides an important basis for fault prediction and preventive maintenance.

03/08

High-efficiency power battery

Ceramic materials can be used to manufacture high-performance power batteries, such as solid-state lithium batteries. The use of solid-state electrolytes not only improves battery safety, but also increases energy density, allowing electric vehicles to have longer driving range and shorter charging time.

04/08

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