Special refractories mainly include high melting point oxides, high melting point non-oxides, and the derived composite compounds, cermet, high-temperature coating, high-temperature fiber, and its reinforcing materials. Among them, non-oxides with a high melting point are usually called refractory compounds, which also include carbides, nitrides, borides, silicides, and sulfides. Although the cost of special refractories is […]
Zirconium, a rare metal, is widely used in the fields of aerospace, military industry, nuclear reaction, and atomic energy. Generally, titanium products used in spacecraft with high corrosion resistance are far inferior to zirconium, whose melting point is around 1600 degrees, while that of zirconium is above 1800 degrees, and the melting point of zirconia […]
The types of special refractory include high melting point oxides, high melting point non-oxides and the resulting composite compounds, metal ceramics, high-temperature coating, high-temperature fiber and its reinforcing materials. The high melting point non-oxides are usually called refractory compounds, which include carbide, nitrogen, boride, silicified and sulfide, and the application of special oxide refractory materials […]
With the rapid development of iron and steel industry and the requirement of improving the performance of electronic components, zirconia refractories are more and more applied, among which metallurgical industry uses the most and has the most characteristics in the electronics industry. Zirconia is a very stable refractory oxide, and the relevant research shows that […]
Copyright © 1994-2019 Stanford Advanced Materials, All Rights Reserved.