Beryllium oxide has a melting point of 255 °C and a density of 3.03g/cm3. The stability is excellent when heated, especially the resistance to reduction is strong, of all oxides beryllium oxide is the most resistant to carbon reduction at high temperatures. BeO thermal conductivity is very high, but conductivity is very low. Beryllium oxide at low temperature mechanical strength is relatively small, but at 1600℃, mechanical strength is basically unchanged, is the highest pressure strength of oxides at this temperature.
B4C has a wide range of applications. This article is a brief summary of its applications.
Scandium fluoride (ScF₃) is a compound that has garnered attention for its unique properties and diverse applications across various industries. This article explores the characteristics of scandium fluoride, its current applications, and the potential it holds for future advancements.
Comparison of Magnesium oxide stabilized zirconia and Yttrium stabilized zirconia ceramics
Alumina ceramics are a type of ceramic material made from alumina as the main raw material through shaping and sintering.