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Dysprosium Carbonate Powder

Terbium Carbonate Powder

Dysprosium Carbonate Powder
Product No NRE-11087
CAS 38245-35-1
Purity 99.9%
Formula Dy2(CO3)3 • 4H2O
APS <40 µm (can be customized)
Color White
Molecular Weight 577.09 g/mol
Density NA
Melting Point NA
Boiling Point NA

Dysprosium Carbonate Powder

Dysprosium carbonate powder, which consists of dysprosium, carbon, and oxygen, has a few notable applications due to the unique properties of dysprosium. Dysprosium is a rare earth element that exhibits high magnetic strength and is used in various advanced technologies. Dysprosium carbonate powder is primarily used as a precursor in the synthesis of other dysprosium compounds. Here are some of the common applications and uses of dysprosium carbonate powder:

Magnets: Dysprosium is known for its high magnetic strength and is used in the production of powerful magnets, particularly in the manufacturing of neodymium-iron-boron (NdFeB) magnets. These magnets find applications in various industries, including renewable energy, electronics, and automotive sectors.

Nuclear reactors: Dysprosium has the ability to absorb neutrons, making it valuable in the control rods used in nuclear reactors. These control rods help regulate the rate of fission reactions, thereby ensuring the safe and efficient operation of nuclear reactors.

Lighting: Dysprosium is used in the manufacturing of certain types of lighting, such as halide lamps. These lamps are known for their high color rendering index, making them suitable for various specialized lighting applications, including in film and television production, photography, and certain industrial settings.

Ceramics and glass: Dysprosium compounds, including dysprosium carbonate, are used as additives in ceramics and glass manufacturing to produce materials with improved thermal stability and optical properties. These materials find applications in the production of specialty glass and ceramics used in lasers, optical devices, and high-temperature environments.

Data storage: Dysprosium has also shown promise in the development of high-density data storage devices. Its unique magnetic properties make it a potential candidate for the production of high-performance data storage materials, such as magnetic thin films and recording media.