Thermal Conductivity Of Beryllium Oxide Ceramic

It is used in high technology ceramics electronic heat sinks electrical insulators high power devices high density electrical circuits microwaves x ray windows nuclear reactor fuels and for various aerospace and military.

Thermal conductivity of beryllium oxide ceramic. Beryllium oxide versus aluminum nitride. Beryllium oxide is widely used in aerospace nuclear power metallurgical engineering electronics industry rocket manufacturing and so on. With use of beo ceramic in electronic technology one of the main parameters is its high thermal conductivity. Beryllium oxide is widely used in industry due to its low density and high thermal and electrical conductivity.

At present the thermal conductivity of the prepared beo ceramics can reach 280 w m k which is 10 times higher than that of aluminum oxide al2o3 ceramics. Prospects are discussed for the use of beo ceramic in electronic and other fields of technology and special instrument building. A 20 lower dielectric constant than alumina and aluminum nitride offers advantages in the high frequency field. Beryllium oxide beo also known as beryllia is an inorganic compound with the formula beo.

As an amorphous solid beryllium oxide is white its high melting point leads to its use as a refractory material. This colourless solid is a notable electrical insulator with a higher thermal conductivity than any other non metal except diamond and exceeds that of most metals. When small components require great strength bw 1000 ceramic is the optimum choice. Analysis of publications shows that beo ceramic in the range 300 500 k exhibits the highest thermal conductivity among all ceramic materials used in.

For comparison the thermal conductivity of beryllium oxide at room temperature is 285 w mk for copper it is 400 w mk for aluminum nitride it is 180 w mk and for diamond it is 2000 w mk. The thermal conductivity of beo is extremely high in comparison with other ceramics particularly below 300 c. It is ideal for very small fragile parts that will endure high levels of stress during the life cycle of the product. Bw3250 beo ceramic offers higher thermal conductivity than bw 1000 ceramic but with lower flexural strength.

Beo ceramic is utilized for its proven superior properties and its cost effectiveness unmatched by aluminum nitride aluminum oxide boron nitride silicon carbide or any ceramic.