High Wear Resistance: Exhibits minimal wear even after prolonged use, making it ideal for high-abrasion environments such as ore conveying systems and sand mills.
Strong Corrosion Resistance: Demonstrates excellent stability against chemical media-including acids, alkalis, and salts-enabling stable, long-term operation in corrosive environments (e.g., chemical processing and wastewater treatment plants); far superior to traditional metal materials.
Outstanding High-Temperature Performance: Suitable for high-temperature applications, such as in aircraft engines and metallurgical equipment.
Low Friction and Self-Lubrication: Features a smooth surface with a low coefficient of friction; certain ceramic types possess self-lubricating properties, thereby reducing energy consumption and minimizing the need for external lubrication.

High Hardness and Rigidity: Possesses strong resistance to deformation, which helps enhance the positioning accuracy and operational stability of precision equipment.
Excellent Electrical Insulation: As ceramics are excellent electrical insulators, they are well-suited for applications with strict electrical safety requirements, such as in coal mining and power generation facilities.
Superior Biocompatibility: Zirconia ceramics, in particular, are highly compatible with human tissues and are widely utilized in medical fields, such as for artificial joints and dental restorations.
Extended Service Life: Thanks to the combination of the aforementioned properties, ceramic components typically boast a service life several-or even tens-of times longer than that of their metal counterparts, resulting in significantly reduced maintenance costs.
