Showing 217–228 of 268 results
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- High Purity: Ensures superior performance in specialized applications.
- Magnetic Properties: Excellent magnetostrictive and magneto-optical characteristics.
- Optical Applications: Outstanding performance in light-emitting devices and phosphors.
- Customizable Particle Size: Available in various sizes to suit specific industrial needs.
- Stable and Reactive: Carefully processed to minimize oxidation and ensure long-term usability.
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- High Refractive Index: Tb₂O₃ is ideal for optical coatings requiring high transparency and minimal loss in the infrared spectrum.
- Magnetic Properties: Its strong magnetic properties are critical for use in magneto-optical and magnetic storage devices.
- Thermal Stability: Tb₂O₃ has a high melting point and good thermal stability, making it suitable for high-temperature evaporation processes.
- Rare Earth Characteristics: As a rare earth oxide, Tb₂O₃ has unique optical and electronic properties that make it valuable in niche technological applications.
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- Superior Strength-to-Weight Ratio: TC4 offers exceptional strength while maintaining a lightweight profile, making it ideal for demanding applications.
- Corrosion Resistance: Resistant to corrosion in various environments, particularly in harsh aerospace and marine conditions.
- Biocompatibility: Safe for medical and implant applications due to its non-toxic and biocompatible properties.
- Excellent Weldability: The alloy’s composition allows for good weldability, ensuring reliable performance in critical applications.
- High Durability: Resistant to wear and fatigue, making it suitable for long-lasting and high-performance products.
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- High Thermoelectric Efficiency: Tellurium-based materials, like Bi2Te3, are widely recognized for their superior thermoelectric performance, essential for thermoelectric cooling and power generation.
- Infrared Transparency: Tellurium compounds exhibit transparency in the infrared spectrum, which makes them useful for IR optics and imaging devices.
- Phase-Change Properties: Tellurium has excellent phase-change properties, which enable its application in PCM for non-volatile memory storage.
- High Purity: Tellurium used in evaporation is typically of high purity (≥ 99.9%), ensuring uniformity and high-quality thin film deposition.
- Stable Evaporation: Tellurium can be evaporated with thermal and electron-beam techniques, providing consistent deposition rates for thin films.
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- Semiconductor Properties: Tellurium’s ability to act as a semiconductor makes it crucial in electronics, especially in combination with other elements like cadmium and bismuth.
- Thermoelectric Efficiency: Tellurium’s thermoelectric properties allow it to convert heat energy into electrical energy, making it valuable for energy-harvesting applications.
- Corrosion Resistance: When alloyed with metals like copper and steel, tellurium improves corrosion resistance and machinability.
- High Density: Tellurium has a high density, making it suitable for certain high-performance alloys and specialized applications in material science.
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- High Corrosion Resistance: Titanium’s natural oxide layer provides exceptional resistance to corrosion, making it ideal for harsh environments.
- Strong Adhesion: Titanium films have excellent adhesion to a wide range of substrates, ensuring durable, stable coatings.
- Low Density: Titanium is lightweight, making it ideal for applications where weight reduction is important, such as in aerospace and medical industries.
- High Melting Point: With a melting point of 1,668°C, titanium can be used in high-temperature environments without degradation.
- Biocompatibility: Titanium’s biocompatibility makes it suitable for medical implants and devices.
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- High purity (≥99.99%).
- Excellent electrical conductivity and stability.
- Unique optical properties, including selective light absorption.
- Uniform pellet size for consistent deposition and performance.
- Customizable sizes and packaging for various applications.
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$25.00 – $130.00
- High Refractive Index: Ti₃O₅ has a high refractive index, making it suitable for optical coating applications where control of light reflection and transmission is essential.
- Excellent Thermal Stability: With a high melting point and stability at elevated temperatures, Ti₃O₅ is ideal for use in high-temperature processes like e-beam and thermal evaporation.
- Good Catalytic Properties: Ti₃O₅ has notable catalytic capabilities, especially in photocatalytic reactions for air and water purification.
- Durability and Hardness: Ti₃O₅ thin films are durable and resistant to wear, making them suitable for both protective and decorative purposes.
- Semiconducting Properties: With its semiconducting characteristics, Ti₃O₅ is useful in electronic components and sensor technology.
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- High Strength-to-Weight Ratio: Ideal for lightweight and robust components.
- Excellent High-Temperature Resistance: Retains strength at elevated temperatures.
- Oxidation and Corrosion Resistance: Prolongs material lifespan in harsh environments.
- Customizable Ti-Al Ratios: Tailored to meet specific industrial requirements.
- Wide Range of Particle Sizes: From nano to micrometer scales for diverse applications.
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- High Hardness: TiB₂ has one of the highest hardness values among borides, making it ideal for creating hard coatings that resist wear and abrasion.
- Thermal Stability: It has excellent thermal conductivity and stability at high temperatures, which is critical for coatings used in high-temperature applications.
- Electrical Conductivity: TiB₂ is a good conductor of electricity, allowing its use in thin-film applications that require conductivity without sacrificing durability.
- Corrosion Resistance: TiB₂ is resistant to many corrosive environments, especially when exposed to molten metals or extreme industrial conditions.
- Strong Adhesion: TiB₂ coatings bond strongly to a variety of substrates, ensuring long-lasting performance in industrial and electronic applications.
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- High Hardness: TiC is extremely hard, making it useful for coatings that require high wear resistance.
- Thermal Stability: TiC can withstand high temperatures, making it ideal for high-temperature deposition and coating processes.
- Corrosion Resistance: TiC coatings provide excellent resistance to oxidation and chemical corrosion, enhancing component longevity in harsh environments.
- Electrical Conductivity: As a conductive ceramic, TiC is suitable for applications requiring both mechanical strength and electrical conductivity.
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- High Strength and Durability: Ensures reliable performance under mechanical stress.
- Excellent Corrosion Resistance: Suitable for harsh and corrosive environments.
- Biocompatibility: Ideal for medical applications such as implants and prosthetics.
- Customizable Ti-Mo Ratios: Tailored compositions for specific requirements.
- Wide Particle Size Range: Available from nanoscale to micrometer dimensions.