The Ytterbium product category features a rare earth metal with exceptional properties and diverse applications. Ytterbium finds extensive use in fiber lasers, where its high melting point and energy levels enable efficient laser beam generation. It plays a crucial role in telecommunications, material processing, and medical applications, driving advancements in precision machining and medical treatments. Ytterbium-doped crystals enhance laser performance, offering reliable and powerful light sources. As a key component in cutting-edge technologies, the Ytterbium product category empowers industries to achieve faster and more precise processes, revolutionizing manufacturing, communications, and medical sectors for improved efficiency and breakthroughs.
we delve deep into the intricacies of yttrium fluoride powder, exploring its unique attributes, functions, and the myriad advantages it offers across various industries.
Top quality rare earth Yttrium oxide powder for fluorescent powder
Yttrium oxide Main purpose
1. Manufacturing magnetic materials for microwave and important materials for military use, also used as optical glass. Yttrium(III) oxide can increase the refractive index of special glass and reduce the dispersion index. It is used as a high brightness phosphor for large screen TV and other picture tube coatings. It is used to manufacture film capacitors, special refractory materials, high-voltage mercury lamps, lasers, storage components and other magnetic bubble materials. It is also used in artificial gemstone laser crystals, superconducting materials, etc. It is an additive for lanthanide optical glass and high-temperature and radiation resistant optical glass. It is an important additive in engineering ceramics such as silicon nitride and zirconia, as well as functional ceramics such as piezoelectric ceramics, optoelectronic ceramics, semiconductor ceramics, thermistor ceramics, and capacitor ceramics. It is also used to manufacture film capacitors, special refractory materials, and magnetic bubble materials for high-pressure mercury lamps, lasers, storage components, etc.
2. It is mainly used to prepare new magnetic material Yttrium iron garnet and solid laser material Yttrium aluminium garnet, as well as TV phosphor, ultra short afterglow phosphor, phosphor for X-ray intensifying screen and phosphor for fluorescent lamp. It is an additive for lanthanide optical glass and high-temperature and radiation resistant optical glass. It is an important additive in piezoelectric ceramics, optoelectronic ceramics, semiconductor ceramics, thermistor ceramics, and capacitor ceramics in engineering ceramics such as silicon nitride, zirconia ceramics, and functional ceramics. In addition, it is also used to prepare hydrogen storage materials, superconducting materials, and artificial gemstones.