Ytterbium Oxide Pieces
Ytterbium Oxide Pieces
Ytterbium Oxide Pieces | |
Product No | NRE-62063 |
CAS No. | 1314-37-0 |
Formula | Yb2O3 |
Size | 3mm – 12mm (Can be Customized) |
Quantity | 50g, 100g |
Purity | 99.99% |
Molecular Weight | 394.07 g/mol |
Density | 9.17 g/cm³ |
Melting Point | 2,355 °C |
Boiling Point | 4,070 °C |
Ytterbium Oxide Pieces
Introduction:
Ytterbium oxide pieces is a chemical compound of ytterbium, a rare earth element belonging to the lanthanide series. Ytterbium oxide is known for its unique optical and electronic properties, which make it valuable in a variety of industrial and technological applications. Typically, it appears as a white powder or solid pieces, and it is often used in ceramics, electronics, and materials science.
Applications
Optical Materials: Yb2O3 is used in the production of optical glass and ceramics, where it enhances the properties of materials, such as their transparency and refractive index. It is often utilized in high-performance optics, including lenses and lasers.
Lasers: Yb2O3 is a key component in solid-state lasers, such as ytterbium-doped lasers. These lasers are widely used in industrial applications, medical devices, and research, due to their efficiency and ability to produce high-intensity light.
Ceramics: Yb2O3 is used as a dopant in ceramic materials to improve their mechanical strength and thermal stability. This makes it valuable in applications such as advanced ceramics used in aerospace and automotive industries.
Metallurgy: In metallurgy, ytterbium oxide can be used as a grain refiner in aluminum and other alloys. It helps improve the properties of the metals, enhancing their strength and corrosion resistance.
Nuclear Applications: Ytterbium is being explored for potential applications in nuclear science, particularly in neutron capture processes and as a radiation shield due to its density and effective atomic number.
Research and Development: Ytterbium oxide pieces are used in research laboratories, particularly in studies involving solid-state physics and materials science. Their unique properties allow scientists to explore new applications and technologies.