Machinable Ceramic Structural Components (Macor Ceramics)

Product Overview

Machinable Ceramic Structural Components are engineering materials that offer excellent machinability, designed for high-precision and complex shapes in industrial applications. These ceramic components can be processed using conventional metalworking tools, such as drilling, milling, grinding, and polishing, without the need for specialized ceramic processing equipment. This reduces the manufacturing cost and lead time of complex parts. That ceramics can be machined just like metals, making them ideal for installation and fixation in various precision mechanical devices.

Features

• Easy Machinability: Can be cut, drilled, ground, and polished using standard metalworking tools without requiring specialized ceramic processing equipment.
• High Temperature Stability: Maintains mechanical stability and dimensional accuracy at temperatures up to 800°C, suitable for high-temperature applications.
• Outstanding Electrical Insulation: Offers extremely high electrical insulation strength (30 kV/mm) and volume resistivity (10^16 Ω·cm), ideal for electronic and high-voltage applications.
• Thermal Management: Low thermal conductivity (1.71 W/(m·K)) and excellent thermal shock resistance (△T 200°C), suitable for environments with rapid temperature changes.
• Chemical Stability: Does not absorb moisture and has zero permeability, maintaining excellent performance in various chemical environments.

Applications

• Aerospace: Used as insulators and supports in spacecraft thermal management systems, handling parts exposed to extreme temperatures.
• Semiconductor Manufacturing: Serves as handling arms or support structures in semiconductor fabrication equipment, ideal for cleanroom environments.
• Laboratory Equipment: Widely used in precision components for laboratory analysis and testing equipment.
• Electrical Insulation Applications: Used as insulators in power and high-voltage equipment, preventing arcing and current leakage.
• Thermal Management Applications: Applied in heat dissipation components for electronic devices, particularly in temperature-sensitive or high-voltage equipment.