Ceramic Components for New Energy Applications

Product Overview

Ceramic components for new energy applications are made from high-purity ceramic materials, offering outstanding insulation properties, good brazing and sealing capability, and excellent vacuum airtightness. These ceramic materials can withstand high transient current shocks, making them ideal for cutting-edge new energy technologies such as electric vehicles, wind power generation, and other renewable energy fields. The components are efficiently combined with other materials through advanced brazing techniques like copper brazing, aluminum brazing, and valve soldering, providing reliable sealing and protection. The products maintain stable performance in extreme environments such as high voltage, high current, and high temperatures, ensuring long-term reliable operation of the equipment.

Features

• Excellent Insulation Performance: Ensures stable electrical performance in high voltage and high-frequency environments, preventing electrical leakage.
• Good Brazing and Sealing Capability: Can be efficiently brazed using copper, aluminum, or other techniques, ensuring strong, long-term stability of the seals.
• Vacuum Airtightness: Ceramic materials provide excellent vacuum sealing performance, making them suitable for vacuum environments and high-pressure equipment.
• High Resistance to Transient Current Shocks: Able to withstand extremely high transient currents in applications such as electric vehicles and power equipment, ensuring safe operation.
• High Mechanical Strength and Bonding Strength: Exhibits good bonding and mechanical strength, ensuring long-term use in harsh environments.
• Excellent Thermal Stability: Maintains stable performance in high-temperature environments, unaffected by significant temperature fluctuations.

Applications

• Electric Vehicles: Used in electric vehicle battery packs, electric drive systems, and electronic control equipment, providing insulation, protection, and sealing.
• Wind Power Generation: Widely used in electrical components, power converters, and other critical systems in wind power generation equipment to ensure stable operation.
• New Energy Power Generation Systems: Applied in other renewable energy systems (such as solar power, energy storage systems, etc.) for electrical protection, sealing, and connection components.
• High-Voltage Electrical Equipment: Used in high-voltage electrical equipment, substations, and distribution systems to provide protection, insulation, and sealing.
• Overcurrent Protection Devices: Widely used in overcurrent protection devices in high-voltage and high-current applications, ensuring the reliability and safety of equipment.