Product Overview
Zirconium Oxide Nanopowder, often known as zirconia (ZrO2), is a highly durable ceramic material notable for its exceptional resistance to heat and corrosion. This nanopowder form increases the material’s surface area, enhancing its chemical reactivity and mechanical properties. Zirconia is typically synthesized using methods like hydrothermal synthesis, which ensure high purity and consistent nanoparticle size distribution. It is prized for its excellent thermal insulation capabilities and structural strength.
Key factor
- High Thermal Stability: Zirconium oxide can withstand very high temperatures without melting or decomposing, making it ideal for high-temperature applications.
- Mechanical Strength: It exhibits superior hardness and toughness, which are crucial for applications in demanding environments.
- Corrosion Resistance: Zirconia is highly resistant to attack by acids, bases, and other corrosive environments.
- Electrical Properties: Depending on the specific dopants used, zirconia can have ionic conductivity properties, making it useful in solid oxide fuel cells.
- Biocompatibility: Zirconium oxide is non-toxic and compatible with biological tissues, making it suitable for medical applications, such as dental implants and joint replacements.
Applications
- Ceramics Industry: Used in the production of ceramic pigments and dental ceramics due to its excellent biocompatibility and aesthetic qualities.
- Automotive and Aerospace: Employed in making components that require high thermal resistance and durability, such as heat shields and turbine blades.
- Fuel Cells: Utilized as an electrolyte in solid oxide fuel cells (SOFCs) because of its ability to conduct oxygen ions at high temperatures.
- Medical Devices: Commonly used in the manufacturing of hip and knee replacements and dental implants because of its strength and biocompatibility.
- Optical and Photonic Devices: Applied in coatings and other components where high refractive index and durability are necessary.
Advantages
- High Durability and Wear Resistance: Ensures long-lasting performance under extreme mechanical stress and in harsh environments.
- Thermal Insulation: Provides excellent insulation in high-temperature processes, reducing energy consumption and improving efficiency.
- Aesthetic Flexibility: In the dental industry, it can be produced to mimic the appearance of natural teeth, enhancing cosmetic outcomes.
- Chemical Inertness: Does not react with most chemicals, preserving its integrity and performance over time.
- Medical Suitability: Its biocompatibility makes it safe for a wide range of medical applications, reducing the risk of rejection and complications.
Why HIYKA
Hiyka employs advanced manufacturing processes, including hydrothermal synthesis, to produce zirconium oxide nanopowder with high purity and precise particle size distribution. This ensures that the material's intrinsic properties, such as thermal stability and mechanical strength, are maximized for optimal performance in various applications. Hiyka boasts a deep expertise in the field of nanotechnology, allowing it to develop nanoparticles that enhance the properties of traditional materials. This expertise ensures that customers receive products tailored for specific applications, whether in advanced ceramics, medical devices, or energy technology.