new material
Structural ceramic components with nanometer zirconia provide optimized mechanical strength, superior wear resistance, and enhanced thermal stability. Designed for advanced applications, they ensure efficient integration, extended durability, and high-performance adaptability.
Product Overview
Nanometer zirconia-added structural ceramic components are high-performance materials designed to provide superior strength and toughness. They are widely used in applications that require exceptional wear resistance, heat resistance, and corrosion resistance. The addition of nanometer zirconia enhances the mechanical properties of ceramics, enabling them to maintain stable structures and functionality even under extreme conditions.
Key Features
- High Strength and Toughness:The inclusion of nanometer zirconia significantly enhances the ceramic's strength and toughness.
- Wear Resistance:Provides excellent wear resistance, making it suitable for abrasive environments.
- Wide Adaptability:Suitable for a wide range of ceramic products, with notable advantages in high-temperature, wear-resistant, and corrosion-resistant applications.
Applications
- High Strength, Tough, and Wear-Resistant Products:Used in mill linings, cutting tools, drawing dies, hot extrusion dies, nozzles, valves, balls, pump parts, and various sliding components.
- Functional and Structural Ceramics:Particularly well-suited for electronic ceramics and bio-ceramics (e.g., dental implants).
- Piezoelectric Elements and Oxygen-Sensitive Resistors:Used in the manufacture of high-performance piezoelectric elements, oxygen-sensitive resistors, large-capacity capacitors, and more.
- Synthetic Gemstones and Abrasive Materials:Serves as a foundational material for synthetic gemstones and high-performance abrasive materials.
- Refractory Materials and Metallurgical Applications:Widely used in refractory applications such as electronic ceramic firing support plates, molten glass, and metallurgical materials.
| Model | ZR30Y3 | ZR30Y5 | ZR30Y8 |
| Crystal Phase | 3Y Tetragonal Phase | 5Y Tetragonal Phase | 8Y Cubic Phase |
| Primary Particle Size (TEM) | 30-50 | 30-50 | 40-80 |
| Average Particle Size (Laser) | 0.4-0.6µm | 0.4-0.6µm | 0.4-0.6µm |
| ZrO₂ Content (+ HfO₂) | 94.70% | 91.50% | 86.50% |
| Y₂O₃ Content | (5.3±0.3)% | (8.5±0.3)% | (13.5±0.3)% |
| Loss on Ignition | ≤0.8% | ≤0.85% | ≤0.85% |
| Al₂O₃ Content | ≤0.01% | ≤0.01% | ≤0.01% |
| Fe₂O₃ Content | ≤0.01% | ≤0.01% | ≤0.01% |
| MgO Content | ≤0.005% | ≤0.005% | ≤0.005% |
| Cl⁻ Content | ≤0.1% | ≤0.1% | ≤0.1% |
