Gadolinium powder for advanced functional materials is an important rare earth raw material designed for the development and manufacturing of high-performance materials. With high purity, uniform particle size, and strong reactivity, this material can be applied in many high-tech fields such as magnetocaloric materials, magnetic films, doped ceramics, and alloy parent materials. The reliable quality of high-purity gadolinium powder for magnetocaloric applications ensures excellent performance in both research and industrial processes.
We provide customized gadolinium powder for research and industrial use with a wide range of particle size options to meet your specific needs. Our professional team offers comprehensive pre-sales and after-sales technical support to ensure your R&D and production applications run smoothly and efficiently.
Purity: 99.9%
Controllable particle distribution, suitable for sintering, sputtering, alloy preparation and other processes
Strong magnetic response, showing ferromagnetism below room temperature
Customizable packaging, argon packaging, surface treatment and other process parameters
Magneto-refrigeration materials: Gadolinium has a significant magnetocaloric effect and is the core component for the preparation of room-temperature magnetic refrigeration materials.
Magnetic film: used for the preparation of Gd-based alloy films in magneto-optical storage and magnetic sensors.
Electronic ceramics: Gadolinium-doped ceramic materials have excellent dielectric and electromagnetic properties.
Alloy parent materials: used to make rare earth functional alloys such as iron, nickel, cobalt, etc. to enhance magnetic and mechanical properties.
We provide Certificate of Analysis (COA), Material Safety Data Sheet (MSDS) and other relevant reports for each batch of goods. In addition, we also support third-party testing to enhance quality assurance.
Molecular formula: Gd
Atomic weight: 157.25 g/mol
Appearance: Silver-grey metallic powder, fine particles, uniform texture
Density: Approximately 7.9 g/cm³ (apparent density depends on particle size distribution)
Melting point: Approximately 1,312°C
Crystal structure: hexagonal close packing (hcp)
Chemical stability: easily oxidized in air, needs to be sealed and filled with inert gas during storage
Reactivity: reacts quickly with acid to generate hydrogen, reacts slowly with water; has certain flammability in powder form
Signal Word:
Danger
Hazard Statements:
H228: Flammable solid
H260: In contact with water releases flammable gases which may ignite spontaneously
Inner Packaging: Double-layer sealed plastic bags or aluminum foil bags for moisture and leakage protection.
Outer Packaging: Iron drum or fiber drum, depending on the weight, with reinforced sealed lid.
Hazard Packaging: UN-certified packaging compliant with regulations for hazardous materials transportation.
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