Beryllium Fluoride Powder
Beryllium Fluoride Powder
Beryllium Fluoride Powder | |
Product No | NRE-11027 |
CAS No. | 7787-49-7 |
Formula | BeF2 |
Molecular Weight | 47.01 g/mol |
APS | <40 um(can be customized) |
Purity | 99.9% |
Density | 1.98 g/cm3 |
Color | White |
Melting Point | 545°C |
Boiling Point | 1169 °C |
Beryllium Fluoride powder
Beryllium fluoride powder, also known as beryllium(II) fluoride, is an inorganic compound with the chemical formula BeF2. It is a white solid that is highly soluble in water. Beryllium fluoride has a variety of applications in different fields due to its unique properties. Some of its key applications include:
Nuclear Reactors: Beryllium fluoride is used as a neutron moderator and a neutron reflector in nuclear reactors. Its high melting point and ability to slow down neutrons make it an important material in nuclear power generation.
Aerospace Industry: Due to its lightweight and strong material properties, beryllium fluoride finds application in the aerospace industry, particularly in the production of lightweight components for spacecraft, satellites, and other aerospace applications.
Ceramics and Glass Manufacturing: Beryllium fluoride is used in the production of ceramics and glasses. It serves as a component in the manufacturing of various types of glasses, including those with special optical properties.
Electronics Industry: Beryllium fluoride is utilized in the electronics industry as a component in the production of optical materials, specialty glasses, and ceramics used in electronic devices. It is also used in the production of semiconductors and various electronic components.
Fluoride Chemistry: Beryllium fluoride serves as a valuable source of fluoride ions in various chemical reactions and synthesis processes. It is often employed in the synthesis of other chemical compounds and inorganic materials.
Dental Industry: Beryllium fluoride has been used in some dental applications, although its use in this area has decreased due to safety concerns associated with beryllium exposure.