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Ytterbium Oxide, also known as Ytterbia (molecular formula: Yb₂O₃), is a crucial rare earth oxide with a white or off-white fine powder appearance. It boasts stable chemical properties, high melting point, excellent thermal stability, and superior optical and electrical performance. As a professional rare earth manufacturer, we supply high purity Ytterbium Oxide with strictly controlled impurities, uniform particle size, and consistent composition. Adopting advanced purification and processing technology, our products undergo strict quality inspection at every production stage to ensure reliable performance. It is widely applied in optical glass, laser materials, electronic ceramics, thermal coatings, and scientific research fields, serving as an indispensable raw material for high-end rare earth deep processing and high-tech industries.
Product Advantage
1. High Purity & Low Impurity
Our Ytterbium Oxide is available in high purity grades (up to 99.9%), with strictly controlled trace impurities and no agglomeration. The uniform powder particle size ensures good dispersibility and compatibility, fully meeting the high-standard requirements of high-end optical, electronic, and laboratory research fields.
2. Excellent Optical & Thermal Properties
It features outstanding optical transmittance and refractive index, making it ideal for optical glass and laser crystal production. With excellent thermal stability and heat resistance, it is not easy to decompose or oxidize in high-temperature environments, suitable for high-temperature industrial applications such as thermal coatings.
3. Stable Chemical Performance
Possessing good chemical inertness, it is not easy to react with air, moisture, or common chemicals, ensuring long-term storage stability. The white/off-white powder form is easy to transport, store, and mix with other materials for formulation and processing.
4. Customizable Specifications
We provide Ytterbium Oxide in various specifications, including different purity grades, particle sizes, and packaging options. Customized services are available to meet the specific needs of optical, electronic, laser, and metallurgical industries.
5. Factory Direct Supply & Cost-Effective
Adopting standardized production processes and complete testing systems, each batch of products maintains consistent quality and stable performance. As a direct manufacturer, we eliminate middlemen, offering competitive pricing, sufficient inventory, and stable supply to support bulk orders and long-term cooperation.
Product Uses
1. Optical Glass Industry
As a key raw material for high-quality optical glass, Ytterbium Oxide is used to produce special optical glass, lens, and optical fibers. It improves the transparency, refractive index, and thermal stability of glass, widely applied in optical instruments, aerospace, and optical communication fields.
2. Laser Material Field
Used as a dopant for laser crystals (such as ytterbium-doped yttrium aluminum garnet crystals), it enhances laser performance, including output power and stability. It is widely used in laser cutting, laser medical treatment, laser communication, and scientific research lasers.
3. Electronic Ceramic Industry
Applied in the production of electronic ceramics, such as capacitors, resistors, and semiconductor components. It improves the electrical conductivity, thermal stability, and mechanical strength of ceramics, meeting the requirements of high-end electronic devices.
4. Thermal Coating & Metallurgy
Used as a raw material for high-temperature thermal coatings, it provides excellent heat insulation and corrosion resistance, applied in aerospace engines, high-temperature equipment, and industrial furnaces. As a rare earth additive in alloy smelting, it refines grain structure and improves the toughness and high-temperature resistance of metals.
5. Laboratory & High-Tech Research
High purity Ytterbium Oxide serves as an analytical reagent and research raw material in rare earth chemistry, material science, and high-tech research. It is also used in the development of new materials, such as superconducting materials and magnetic materials, with broad application prospects in high-tech fields.
