BC1754 Beryllium Oxide Ceramic Crucible, BeO Crucible

Catalog No. BC1754
Size Wide Range of crucible sizes
Standard Standard Beryllium Oxide crucibles
Purity >99.5%
Shape All kinds of shapes

Stanford Advanced Materials provide high-quality beryllium oxide ceramic crucibles and other BeO products. Due to special material properties, the actual filling capacity may be smaller than the nominal value.

Related products: Zirconia Crucible (ZrO2 Crucible), Pyrolytic Boron Nitride (PBN) Crucibles, Gold Crucible.

Beryllium Oxide Ceramic Crucible Description 

Beryllium oxide (BeO), also known as beryllia, is an inorganic compound with the formula BeO. Crucible is usually used in the laboratory to contain chemical compounds when heated to extremely high temperatures. Beryllium oxide ceramic crucible can offer superior thermal conductivity, competitive price, and more consistent heating dissipation. The crucible has an excellent uniformity of crystalline structure and durable in semiconductor chamber cleaning solutions.

beryllium oxide

Beryllium Oxide Ceramic Crucible Specifications 

The following crucibles are available standard crucibles used in Stanford Advanced Material. Other custom sizes are available upon request.

The crucible product code is composed as follows:

Abbreviations and code:
C conical-shaped crucibles
D double-wall crucibles
Ø lip

 BeO1-20  BeO5-30

Code: BeO 1-20
Capacity:1cm3

Code: BeO 5-30
Capacity:1cm2

 BeO10-22  BeO10-32

Code: BeO 10-22
Capacity: 10 cm³

Code: BeO 10-32
Capacity: 10cm³

 BeO 25-33  BeO 25-50

Code: BeO 25-33
Capacity : 33 cm³

Code: BeO 25-50
Capacity : 25 cm³

 BeO 35-37  BeO C35-54

Code: BeO 35-37
Capacity : 35 cm³

Code: BeO C35-54
Capacity: 35cm³

 BeO  C60-54  BeO C85-41

Code: BeO C60-54
Capacity: 60 cm³

Code:BeO C85-41
Capacity: 85 cm³

 

Beryllium Oxide Ceramic Crucible Applications 

- High power electronic devices and integrated circuits

BeO ceramic crucibles 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.

- Nuclear reactor

In reactors and converters, ceramic materials receive radiation from high-energy particles and beta rays. Therefore, in addition to high temperature and corrosion resistance, ceramic materials also need to have better structural stability. The neutron reflection and moderator of nuclear fuel are usually made of BeO, B4C or graphite.

- Special metallurgical crucible

Actually, BeO ceramic is a refractory material. In addition, beryllium oxide 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°C.

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