Showing 1–12 of 23 results
-
- High Strength-to-Weight Ratio: Combines the lightweight nature of aluminum with the strength of niobium.
- Improved Thermal Stability: Suitable for high-temperature applications without significant degradation.
- Corrosion Resistance: Offers enhanced resistance to oxidation and wear in harsh environments.
- Versatile Processing: Compatible with various deposition techniques including thermal evaporation and sputtering.
-
- Exceptional Electrical Conductivity: Delivers efficient current flow for electrical systems.
- High Thermal Stability: Operates reliably under extreme temperature conditions.
- Excellent Mechanical Strength: Provides durability in demanding environments.
- Customizable Cu-Nb Ratios: Tailored compositions for specific applications.
- Diverse Particle Sizes: Available in nano to micrometer scales for various needs.
-
- Corrosion Resistance: Outstanding resistance to oxidation, pitting, and crevice corrosion in harsh environments.
- High-Temperature Performance: Maintains mechanical properties and structural integrity at temperatures up to 980°C.
- Exceptional Strength: Offers superior tensile, fatigue, and creep-rupture properties.
- Weldability and Fabricability: Excellent compatibility with welding and additive manufacturing processes.
- Versatile Material: Suitable for applications requiring resistance to seawater, chemicals, and high heat.
-
- High Electro-optic Coefficient: LiNbO₃ has a high electro-optic coefficient, enabling efficient modulation of light in waveguides, modulators, and telecommunications devices.
- Excellent Piezoelectric Properties: LiNbO₃’s strong piezoelectric response makes it ideal for use in SAW devices, sensors, and actuators, providing high sensitivity and control.
- Nonlinear Optical Capabilities: LiNbO₃ is widely used for frequency conversion and other nonlinear optical applications due to its strong nonlinear optical response.
- Ferroelectric Behavior: LiNbO₃’s ferroelectric properties are valuable in memory devices and data storage, enabling the development of non-volatile memory technologies.
- Stable and Durable Thin Films: LiNbO₃ thin films exhibit high thermal and chemical stability, making them suitable for use in demanding environments and high-performance applications.
-
- High Mechanical Strength: The combination of molybdenum and niobium results in an alloy with high tensile strength, making it suitable for demanding structural applications.
- Thermal Stability: MoNb alloys maintain their mechanical properties at elevated temperatures, making them ideal for high-temperature applications, such as coatings for turbine components.
- Corrosion Resistance: The alloy exhibits excellent resistance to oxidation and corrosion, ensuring long-term performance in harsh environments.
- Low Density: Compared to pure molybdenum, the addition of niobium reduces the density of the alloy, enhancing its performance in weight-sensitive applications.
- Customizable Composition: The molybdenum-to-niobium ratio can be tailored to optimize the properties of the alloy for specific applications, whether enhancing strength, thermal stability, or corrosion resistance.
-
- High Corrosion Resistance: Niobium foil offers exceptional resistance to corrosion, particularly in acidic environments. It forms a stable oxide layer on its surface, protecting it from further corrosion in harsh chemicals and high-temperature conditions.
- High Melting Point: Niobium has a high melting point of around 2,468°C (4,474°F), making it suitable for high-temperature applications, such as those in the aerospace and automotive industries.
- Excellent Ductility and Malleability: Niobium foil is highly ductile and malleable, allowing it to be easily formed into thin, flexible sheets without compromising its mechanical properties. This makes it ideal for custom fabrication in precision applications.
- Low Thermal Expansion: Niobium has a relatively low coefficient of thermal expansion, which ensures that it maintains stability and does not deform easily under thermal stress. This property is beneficial in applications requiring high thermal stability.
- Biocompatibility: Niobium is biocompatible and is often used in medical implants and devices, such as pacemakers and stents, without causing adverse reactions in the human body.
- Superconductivity: Niobium exhibits superconducting properties at low temperatures, making it useful in various scientific and medical applications, such as MRI machines and particle accelerators.
-
- High Purity: Ensures superior performance and reliability in sensitive applications.
- Excellent Corrosion Resistance: Ideal for use in harsh environments where chemical exposure is a concern.
- Superconducting Properties: Capable of exhibiting superconductivity at low temperatures, making it valuable in high-tech applications.
- Ductility: Easily shaped and formed, allowing for versatile applications.
- Custom Sizes: Available in various pellet sizes to meet specific requirements for different processes.
-
- 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.
-
- High Purity: Available in purities up to 99.95% to ensure superior film quality.
- Excellent Durability: Resistant to thermal and mechanical stress during deposition processes.
- Custom Shapes and Sizes: Adaptable to meet diverse equipment requirements.
- Consistent Performance: Ensures uniform sputtering rates and film deposition.
- Corrosion Resistance: Ideal for harsh environmental conditions.
-
- High Corrosion Resistance: Exhibits outstanding resistance to chemicals, acids, and oxidizing agents, even in extreme environments.
- Biocompatibility: Completely inert and non-reactive with body tissues, making it ideal for medical implants and devices.
- Superconductivity: Niobium becomes superconductive at low temperatures, making it essential for advanced scientific and electrical applications.
- Ductility and Malleability: Highly ductile and can be drawn into fine wires or shaped to meet specific requirements.
- High Melting Point: With a melting point of 2477°C, niobium wire maintains its integrity under extreme heat.
- Oxidation Resistance: Forms a stable oxide layer that enhances its resistance to further oxidation and wear.
-
- High Refractive Index: Nb₂O₅ is prized for its high refractive index, making it a critical material in optical thin films and coatings where light management is essential.
- Excellent Dielectric Properties: With a high dielectric constant, Nb₂O₅ is perfect for applications in electronic devices where efficient charge storage is required.
- Wide Transparency Range: Nb₂O₅ is transparent across a broad wavelength range, from visible to infrared, making it suitable for use in optical and photonic devices.
- High Purity: High-purity Nb₂O₅ ensures the production of thin films with minimal contamination, enhancing the quality of the deposited films.
-
- 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.
