Zirconia:Designed for extreme chemical environment
Excellent mechanical property
Through phase change toughening technology, the fracture toughness can reach 8–10 MPa·m¹/², with excellent impact resistance;
Mohs hardness ≥ 8.5, and wear resistance is over 15 times that of stainless steel, making it suitable for high-frequency friction scenarios;
high bending strength: can reach ≥ 1200 MPa, with compressive strength ≥ 2.0 GPa.
Critical environment stability
The long-term operating temperature ranges from 800 to 1400°C (depending on the type of stabilizer), with a high strength retention rate at elevated temperatures;
It exhibits chemical inertness, resisting strong acids (except for hydrofluoric acid), strong bases, and organic solvents, and shows no corrosion in biological fluids and high-temperature steam;
With low thermal conductivity, it is suitable for insulation components, thereby reducing thermal transfer losses.
Electromagnetism and Special Properties
High insulation properties, with a room temperature resistivity of ≥10¹⁰ Ω·cm, suitable for electronic insulation components;
Also possesses ionic conductivity with oxygen ion conductivity at high temperatures, used as an electrolyte in solid oxide fuel cells.
Excellent mechanical property
Through phase change toughening technology, the fracture toughness can reach 8–10 MPa·m¹/², with excellent impact resistance; Mohs hardness ≥ 8.5, and wear resistance is over 15 times that of stainless steel, making it suitable for high-frequency friction scenarios; high bending strength: can reach ≥ 1200 MPa, with compressive strength ≥ 2.0 GPa.
Critical environment stability
The long-term operating temperature ranges from 800 to 1400°C (depending on the type of stabilizer), with a high strength retention rate at elevated temperatures; It exhibits chemical inertness, resisting strong acids (except for hydrofluoric acid), strong bases, and organic solvents, and shows no corrosion in biological fluids and high-temperature steam; with low thermal conductivity, it is suitable for insulation components, thereby reducing thermal transfer losses.
Electromagnetism and Special Properties
High insulation properties, with a room temperature resistivity of ≥10¹⁰ Ω·cm, suitable for electronic insulation components; also possesses ionic conductivity with oxygen ion conductivity at high temperatures, used as an electrolyte in solid oxide fuel cells.
Medical device field
Artificial joint femoral heads and dental implants, surgical instruments and guidewires.
Precision Industry and Consumer Electronics
High-end bearings and shaft sleeves, mobile phone backplates, smart wearable components, and precision grinding media - used for nanometer-level powder grinding.
Semiconductor auxiliary equipment
Wafer handling fixtures, vacuum chamber components.
Energy and chemical sector
Fuel cell electrolyte sheets, support SOFC/SOEC high-efficiency energy conversion, corrosion-resistant pump valves and sealing rings, resist acid/alkali/organic solvent corrosion.
Excellent mechanical property
Through phase change toughening technology, the fracture toughness can reach 8–10 MPa·m¹/², with excellent impact resistance; Mohs hardness ≥ 8.5, and wear resistance is over 15 times that of stainless steel, making it suitable for high-frequency friction scenarios; high bending strength: can reach ≥ 1200 MPa, with compressive strength ≥ 2.0 GPa.
Critical environment stability
The long-term operating temperature ranges from 800 to 1400°C (depending on the type of stabilizer), with a high strength retention rate at elevated temperatures; It exhibits chemical inertness, resisting strong acids (except for hydrofluoric acid), strong bases, and organic solvents, and shows no corrosion in biological fluids and high-temperature steam; with low thermal conductivity, it is suitable for insulation components, thereby reducing thermal transfer losses.
Electromagnetism and Special Properties
High insulation properties, with a room temperature resistivity of ≥10¹⁰ Ω·cm, suitable for electronic insulation components; also possesses ionic conductivity with oxygen ion conductivity at high temperatures, used as an electrolyte in solid oxide fuel cells.