Isostatic Graphite
GRAPHITEMATRIX Isostatic Graphite: High-Performance & Ultra-Pure Graphite Material
Isostatic graphite, also known as isostatically molded graphite, is produced using Cold-Isostatic Pressing (CIP) technology, where raw material mixtures are compressed into rectangular or round blocks under uniform pressure. This process creates the most isotropic form of synthetic graphite, with an exceptionally fine grain structure.
Key Features
Exceptional Thermal and Chemical Resistance
Isostatic graphite exhibits outstanding resistance to extreme temperatures and aggressive chemical environments, making it ideal for high-performance industrial applications.
Superior Thermal Shock Resistance
Its microstructure allows it to withstand rapid temperature changes without cracking, ensuring reliability in demanding thermal processes.
High Electrical and Thermal Conductivity
With excellent electrical conductivity and significant thermal conductivity, isostatic graphite is widely used in semiconductor, aerospace, and energy applications.
Strength Increases with Temperature
Unlike many materials, the mechanical strength of isostatic graphite improves at elevated temperatures, enhancing durability in extreme heat environments.
High Machinability
The fine and isotropic grain structure allows for precise machining and customization to meet specialized application requirements.
Ultra-High Purity Options
Isostatic graphite can be manufactured to achieve impurity levels of <1 ppm, ensuring compliance with stringent semiconductor and high-tech industry standards.
Distinct from other synthetic graphite formation techniques, die-molding technology uniquely supports the pressed to size (PTS) method. This efficient near-net shaping process is highly beneficial as it allows to produce complex components in large quantities, economically and with minimal material waste.
Isostatic graphite is a premium engineered material produced through isostatic pressing, resulting in uniform density and isotropic properties. It offers excellent thermal conductivity, high mechanical strength, and outstanding resistance to thermal shock, making it ideal for high-temperature and precision applications. Widely used in semiconductor manufacturing, aerospace, metallurgy, and photovoltaic industries, isostatic graphite ensures reliable performance under extreme conditions. Its fine grain structure and high purity also allow precise machining into complex shapes for advanced industrial components.
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