loading
| Availability: | |
|---|---|
| Quantity: | |
Excellent thermal conductivity: The high thermal conductivity of the alumina ceramic substrate helps to quickly disperse the heat generated when the sensor is working, maintaining the stability and accuracy of the sensor.
Good mechanical strength: The high strength and wear resistance of ceramic substrates enable them to maintain structural integrity in harsh mechanical stress environments.
High temperature resistance: can work stably in high temperature environment, suitable for sensors that need to operate under high temperature conditions.
Electrical insulation performance: Alumina ceramic is an excellent electrical insulation material, which helps to improve the safety and reliability of the sensor.
Chemical stability: has good corrosion resistance to most chemical substances, suitable for chemical sensors and other applications.
Low coefficient of thermal expansion: The low coefficient of thermal expansion helps the sensor maintain accuracy under temperature changes.
High frequency characteristics: Suitable for sensors requiring high frequency response, such as ultrasonic sensors or radar sensors.
High reliability: The stability and durability of the alumina ceramic substrate increase the reliability and life of the sensor.
Miniaturization design: Ceramic substrates can be made very thin and lightweight, contributing to the miniaturization of sensors.
Environmental adaptability: Ability to adapt to a variety of environmental conditions, including humidity, chemicals, and mechanical shocks.
Integration capability: The ceramic substrate can integrate a variety of electronic components to improve the functionality of the sensor.
Electromagnetic compatibility: Low dielectric constant and dielectric loss, helping to reduce electromagnetic interference.
Aesthetics: The alumina ceramic substrate has a good appearance and surface finish, which enhances the overall aesthetics of the sensor.
Customization: The shape, size and characteristics of the alumina ceramic substrate can be customized according to the needs of different sensor applications.
Because of their unique physical and chemical properties, alumina ceramic substrates are ideal for high-performance sensor designs, especially in applications where temperature stability, mechanical strength and electrical insulation are required.
Excellent thermal conductivity: The high thermal conductivity of the alumina ceramic substrate helps to quickly disperse the heat generated when the sensor is working, maintaining the stability and accuracy of the sensor.
Good mechanical strength: The high strength and wear resistance of ceramic substrates enable them to maintain structural integrity in harsh mechanical stress environments.
High temperature resistance: can work stably in high temperature environment, suitable for sensors that need to operate under high temperature conditions.
Electrical insulation performance: Alumina ceramic is an excellent electrical insulation material, which helps to improve the safety and reliability of the sensor.
Chemical stability: has good corrosion resistance to most chemical substances, suitable for chemical sensors and other applications.
Low coefficient of thermal expansion: The low coefficient of thermal expansion helps the sensor maintain accuracy under temperature changes.
High frequency characteristics: Suitable for sensors requiring high frequency response, such as ultrasonic sensors or radar sensors.
High reliability: The stability and durability of the alumina ceramic substrate increase the reliability and life of the sensor.
Miniaturization design: Ceramic substrates can be made very thin and lightweight, contributing to the miniaturization of sensors.
Environmental adaptability: Ability to adapt to a variety of environmental conditions, including humidity, chemicals, and mechanical shocks.
Integration capability: The ceramic substrate can integrate a variety of electronic components to improve the functionality of the sensor.
Electromagnetic compatibility: Low dielectric constant and dielectric loss, helping to reduce electromagnetic interference.
Aesthetics: The alumina ceramic substrate has a good appearance and surface finish, which enhances the overall aesthetics of the sensor.
Customization: The shape, size and characteristics of the alumina ceramic substrate can be customized according to the needs of different sensor applications.
Because of their unique physical and chemical properties, alumina ceramic substrates are ideal for high-performance sensor designs, especially in applications where temperature stability, mechanical strength and electrical insulation are required.
