Showing 37–48 of 75 results
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- High-Temperature Strength: Maintains excellent mechanical properties at elevated temperatures.
- Oxidation Resistance: Outstanding performance in oxidative environments.
- Thermal Stability: Stable microstructure under cyclic thermal conditions.
- Corrosion Resistance: Effective against chemical and environmental corrosion.
- Process Compatibility: Suitable for 3D printing, thermal spraying, and conventional metallurgy.
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- High Thermal Stability: Hafnium Dioxide retains its strength and stability even at elevated temperatures.
- Electrical Insulation: HfO2 is an excellent insulator, making it valuable in high-voltage applications.
- High Refractive Index: With a refractive index of over 2, HfO2 is useful in optical coatings.
- Corrosion Resistance: It offers strong resistance to corrosion, especially in high-temperature and aggressive environments.
- Mechanical Strength: HfO2 powder possesses high hardness, making it suitable for wear-resistant applications.
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- High Purity: Ensures reliable performance in sensitive electronic and industrial applications.
- Low Melting Point: Ideal for soldering and thermal interface materials.
- Excellent Electrical and Thermal Conductivity: Facilitates efficient energy transfer.
- Soft and Malleable: Easily forms thin films and intricate shapes.
- Corrosion Resistance: Stable in various environmental conditions.
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- High Electron Emission Efficiency: Ideal for use in electron emitters.
- Low Work Function: Ensures efficient electron emission at lower temperatures.
- Thermal Stability: Maintains performance at high temperatures, making it suitable for high-power applications.
- Excellent Conductivity: Offers high electrical conductivity for advanced technological applications.
- Purity: Available in high-purity grades for sensitive applications.
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- High Density: Lutetium is one of the densest of the lanthanides, giving it unique properties for use in specialized materials and applications.
- Corrosion Resistance: Lutetium is resistant to oxidation and corrosion, making it durable in various environments.
- Radioisotope Lu-177: Lutetium-177, a radioactive isotope, is used in targeted radionuclide therapy (TRT), particularly for treating neuroendocrine tumors.
- Stable Catalyst: Lutetium is used as an efficient catalyst for cracking hydrocarbons in petroleum refining and polymerization reactions.
- Luminescent Properties: Lutetium compounds are employed in certain light-emitting applications due to their luminescence when excited by radiation.
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- High Purity: Ensures reliable performance in sensitive applications.
- Thermal Stability: Withstands high-temperature environments.
- Oxidizing Agent: Ideal for catalytic and chemical synthesis.
- Semiconducting Properties: Applicable in electronic devices.
- Customizable Particle Sizes: Nano to micrometer scales available.
- Excellent Optical Transparency: Suitable for optical coatings and devices.
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- High Melting Point: Excellent stability at temperatures up to 1900°C.
- Superior Oxidation Resistance: Forms a protective silica (SiO₂) layer at high temperatures.
- Good Electrical Conductivity: Suitable for heating element production.
- Corrosion Resistance: Performs well in oxidative and corrosive environments.
- Low Density: Lightweight yet durable for advanced material designs.
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- High Purity: Available in purity grades of ≥99.9%.
- Thermal and Corrosion Resistance: Excellent resistance to high temperatures and corrosion.
- High Density: Dense material ideal for structural and high-performance applications.
- Superconductivity: Used in the production of superconducting alloys.
- Versatile Particle Size: Available in fine powder forms ranging from nano to microns.
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- High Purity: Available with purity levels of ≥99.9%.
- Chemical Stability: Offers excellent resistance to corrosion and oxidation.
- High Melting Point: High resistance to heat, making it ideal for high-temperature applications.
- Electrical and Optical Properties: Used in capacitors, thin films, and optical coatings.
- Versatile Applications: Suitable for a wide range of applications, including metallurgy and ceramics.
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- Magnetic Properties: Neodymium is known for its exceptional magnetic strength, making it ideal for use in permanent magnets, motors, and generators.
- Optical Properties: Neodymium-doped materials exhibit excellent optical properties, particularly in lasers and glass coloring.
- Alloying: When alloyed with other metals, neodymium improves the strength, ductility, and resistance to high temperatures, making it suitable for specialized applications.
- Catalysis: Neodymium compounds act as effective catalysts in the petrochemical industry, helping refine crude oil into gasoline and other products.
- High Thermal Resistance: Neodymium powder can withstand high temperatures, making it suitable for high-temperature environments and applications such as in electric motors and energy storage.
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- High Purity: Purity levels of ≥99.5% for reliable performance in sensitive applications.
- Magnetic Properties: Essential in manufacturing high-performance neodymium magnets.
- Optical Clarity: Enhances coloration and UV resistance in glass and ceramics.
- Thermal Stability: Maintains performance in high-temperature environments.
- Customizable Particle Size: Available in nano (<100 nm) and micro (1–50 µm) grades or customized.
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- High Purity: Ensures superior performance in critical applications.
- Corrosion Resistance: Exceptional resistance to oxidation and harsh environments.
- Thermal Stability: Performs reliably under high-temperature conditions.
- Excellent Conductivity: High electrical and thermal conductivity for electronic and energy applications.
- Customizable Particle Sizes: From nano to micrometer scales for specific industrial needs.
- Versatile Applications: Suitable for batteries, coatings, catalysts, and additive manufacturing.