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As a pure metal, it is little used, because it reacts readily with water and air. Dysprosium's main use is in alloys for neodymium-based magnets. This is because it is resistant to demagnetisation at high temperatures. This property is important for magnets used in motors or generators. These magnets are used in wind turbines and electrical vehicles, so the demand for dysprosium is growing rapidly.
Dysprosium is a rare earth element that has a metallic, bright silver luster.
As a pure metal, it is little used, because it reacts readily with water and air. Dysprosium’s main use is in alloys for neodymium-based magnets. This is because it is resistant to demagnetisation at high temperatures. This property is important for magnets used in motors or generators. These magnets are used in wind turbines and electrical vehicles, so demand for dysprosium is growing rapidly.
Dysprosium iodide is used in halide discharge lamps. The salt enables the lamps to give out a very intense white light.
Stanford Advanced Materials (SAM) supplies dysprosium Metal in various shapes, including powder, lump, sputter target, or customized.
Magnetic Excellence: Dysprosium is known for its high magnetic susceptibility, making it essential in the production of powerful neodymium-iron-boron (NdFeB) magnets.
Thermal Stability: Dysprosium has remarkable thermal properties, enabling its use in high-temperature applications and extreme environments.
Rare Earth Rarity: As a rare earth element, Dysprosium's unique properties set it apart in specialized technological fields.
Permanent Magnets: Dysprosium is a key component in neodymium-based magnets used in electric vehicles, wind turbines, and electronic devices, contributing to enhanced energy efficiency.
Nuclear Reactors: Dysprosium's thermal stability makes it useful in control rods for nuclear reactors, regulating nuclear reactions and ensuring safety.
Lasers and Lighting: Dysprosium is employed in lasers and lighting applications, producing intense emissions that find use in medical and industrial laser systems.
Magnetic Power: Leverage Dysprosium's magnetic properties to create high-performance, energy-efficient magnets.
Thermal Reliability: Utilize Dysprosium's thermal stability for applications in extreme temperatures and demanding conditions.
Rare Earth Expertise: Harness the potential of rare earth elements for cutting-edge technologies and specialized solutions.
Innovation Catalyst: Dysprosium metal drives advancements in energy, electronics, and nuclear industries.
Expertise: Benefit from our commitment to quality and innovation in rare earth element offerings.
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