Magnesium-stabilized zirconia ceramics are widely used in several fields due to their unique performance characteristics:

1. Industrial applications:
Wear-resistant parts: Used in the manufacture of highly wear-resistant mechanical parts, such as pump bushings, sealing rings and valve components, which can significantly extend the service life of the equipment.
Cutting tools: Used in the manufacture of cutting tools and cutting tools, due to its high hardness and wear resistance can maintain good performance in high-precision machining.

2. Aerospace:
High-temperature components: Used as high-temperature structural components in aero-engines and gas turbines, capable of withstanding extremely high temperatures and pressurized environments.
Thermal Barrier Coatings: Surface coatings for turbine blades and other high-temperature components that provide excellent thermal protection.

3. Electronic and electrical:
Insulators and substrates: Used as insulators and substrates for high-frequency circuits and power electronics due to their excellent electrical insulation properties and thermal stability.

4. Chemicals and energy:
Catalyst Carrier: Used in the chemical industry as a catalyst carrier, providing good chemical stability and high temperature performance.
Fuel Cell Components: Used as an electrolyte material in solid oxide fuel cells, its ionic conductivity and high temperature resistance enhance cell efficiency and life.

Magnesium-stabilized zirconia ceramics play a key role in a variety of fields thanks to their excellent physical and chemical properties, significantly enhancing the performance and durability of equipment.

Magnesium-stabilized zirconia ceramics use magnesium oxide (MgO) as a stabilizer for zirconia, and the crystal structure is cubic lattice after molding, which is more stable. Magnesia-zirconia has better resistance to high temperature and humidity because it is not affected by phase migration. Magnesia-zirconia maintains its strength even in humid, high-temperature environments where the mechanical properties of yttrium oxide partially stabilized zirconia begin to deteriorate.

• Color: yellow
• Density: 5.7 g/cm3
• Hardness: 11.8 GPa
• Maximum working temperature: 2000°C
• Thermal conductivity: 2.2W.(MK)-1
• Flexural strength: ≥900 Mpa
• Fracture toughness: >7.0 (Mpa.m1/2)
• Coefficient of thermal expansion (0~1400℃): 10.2×10-6/℃

To Good Ceramics is a professional ceramic supplier, we have many years of experience in producing high quality precision ceramic parts. We utilize our experienced team and in-depth knowledge of ceramic materials to create the best precision ceramic products for our customers at competitive prices.

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