Beryllium Oxide Ceramic Crucible

Product Overview

The Beryllium Oxide Ceramic Crucible is made from high-purity beryllium oxide (BeO), a material known for its excellent thermal conductivity and thermal stability. It is widely used in high-temperature melting, metal processing, and other high-precision industrial applications. Due to its superior thermal conductivity, beryllium oxide ceramic crucibles are ideal for melting rare and high-purity metals, such as beryllium (Be), zirconium (Zr), platinum (Pt), and vanadium (V). This crucible plays a crucial role in industries such as defense, nuclear energy, metallurgy, and electronics.

Features

• High Thermal Conductivity: Rapidly conducts heat, effectively reducing temperature fluctuations and ensuring stability in high-temperature environments.
• Excellent Thermal Stability: Maintains outstanding chemical stability and physical structure under high temperatures, making it suitable for high-temperature melting and chemical reactions.
• High Purity Material: Made from high-purity beryllium oxide, ensuring the precision and durability of the crucible.
• Good Chemical Stability: Resistant to high temperatures and corrosion, suitable for processing high-melting-point metals.

Applications

• Military Manufacturing: Used for manufacturing high-precision components, particularly for material processing in high-temperature environments.
• Nuclear Energy: Serves as a neutron moderator and a key component in other nuclear-related equipment.
• Metallurgical Engineering: Used for melting high-melting-point metals and rare metals, providing stable support during high-temperature smelting processes.
• Electronics Industry: Used in integrated circuit substrates, heat sinks, and other critical components, ensuring efficient heat dissipation and stability of electronic devices.
• Rocket Manufacturing: Employed in material processing and precision equipment manufacturing in high-temperature and high-pressure environments.