High Thermal Conductivity Beryllium Oxide BeO Ceramic Crucibles, Crucible Material for Melting Use

Detail Information

Melting Point:

2507 °c (4545 °f)

Thermal Conductivity:



Insulation, Low Dielectric Constant, Corrosion Resistant, High Thermal Conductivity, Excellent Insulation, And Electrical Performance

Product Description

BeO ceramics have been used in high-performance, high-power microwave packaging, high-frequency electronic transistor packaging, and high-circuit density multichip components, and the heat generated in the system can be timely dissipated by using BeO materials to ensure the stability and reliability of the system. BeO ceramic crucible can be used in the melting of rare metals and precious metals, especially in the requiring high purity metal or alloy, and the working temperature of the crucible of up to 2000 ºC. Due to their high melting temperature (2550 ºC) and high chemical stability (alkali), thermal stability and purity, BeO ceramics can be used for molten glaze and plutonium. 

Model NO.: B995 ceramic crucible

Certification: CE, RoHS

Shape: Crucible (with/without lid)

Color: White

Refractoriness: Refractoriness> 2000

Type: Ceramic Crucible, Beo Ceramics Refractory Material

Melting Point: 2507 °c (4545 °f)

Boiling Point: 3900 °c (7052 °f)

Density: 2.88 g/cm3

Electrical Resistivity: 13 10X Ω-M

Poisson′s Ratio: 0.26

Specific Heat: 1050 J/Kg-K

Tensile Strength: 140 MPa (Ultimate)

Thermal Conductivity: 325 W/M-K

Young′s Modulus: 350 Gpa

Monoisotopic Mass: 25.007097 Da

Transport Information: Un 1566 6.1/Pg 2

Trademark: Coraynic

Transport Package: Safe Package

Specification: customized size

Origin: China


Beryllium oxide ceramics parts are in high demand with the feature of its superior performance
thermal conductivity insulating materials.
We offer solutions to any component that must provide high thermal conductivity in
conjunction with electrical resistivity. 
BeO Ceramic Materials are ideal in thermal management applications when the following design considerations are critical:
The physical size of the device or the enclosure is reduced. 
The device is exposed to high ambient temperatures
Airflow or liquid cooling is not practical or prohibitively expensive
Ideal materials for heat sinks in electronic circuits
Ideal crucible material for melting and sintering operations providing superior performance
at very high temperatures.
High Thermal Conductivity Beryllium Oxide BeO Ceramic Crucibles Applications
High Thermal Conductivity Beryllium Oxide BeO Ceramic Crucibles Medical:
Blood glucose meters for diabetics
Gas lasers for DNA and tissue analysis
Confocal and wide-field fluorescence microscopy equipment
Portable defibrillators
Telecom Infrastructure
Transistors and terminations in a wireless system
High-end laser diodes for commercial systems
Industrial laser metal cutting and marking equipment
Long-range fiber optic transmission
Semiconductor handling equipment
End-effectors and arm components
Wafer chucks
Crucibles for high-temperature melting
Oil and gas exploration
In situ X-ray analysis for down-hole drilling
Concentrating photovoltaic (CPV) systems
Transmitters, receivers, modulators, and switches
Power amplifiers and drivers
Military and Aerospace
Radar modules
Guidance modules
Microwave and millimeter-wave communications modules
Wireless Communications
Point-to-point and point-to-multipoint radios
Satellite communication modules

Keywords: BeO ceramic crucible, Beryllium oxide, BeO ceramics
Coraynic Technology is Beryllia (Beryllium Oxide) Ceramic Crucibles manufactures with various inner and outer dimensions for high-temperature environments such as semiconductor crystal growth. Please request a quote above to receive pricing information based on your specifications.




BeO Ceramic Crucible