In the field of fine chemicals, zirconia ceramics also have a series of applications:

Catalyst carrier: Zirconia ceramic as the carrier of the catalyst has good chemical stability and high-temperature stability, and can withstand working conditions in high temperature and corrosive environments. Zirconia ceramic catalyst carriers can be used in various fine chemical reactions, such as organic synthesis, oxidation, reduction, and other reactions.

Separation membrane: Zirconia ceramic thin film has good separation performance and chemical stability, and can be used to separate and purify organic, inorganic or gas substances in fine chemical products. For example, zirconia ceramic membranes can be used in processes such as ultrafiltration, microfiltration, and nanofiltration in membrane separation technology.

Catalyst support: Zirconia ceramics can be used as a support material for catalysts, to fix and stabilize the active components of catalysts, and improve their activity and stability. Zirconia ceramic catalyst support is commonly used in organic synthesis, catalytic hydrogenation, catalytic cracking and other reactions in the field of fine chemicals.

Reactors and containers: Zirconia ceramics have excellent heat resistance and chemical stability, and can be used to manufacture reactors and containers for carrying and accommodating various chemicals and solvents in fine chemical reaction processes. These reactors and containers usually need to withstand the effects of high temperature, high pressure, or corrosive substances, and zirconia ceramics can meet these requirements.

Catalyst regeneration: In fine chemical processes, catalysts may fail due to contamination or deactivation. Zirconia ceramics can be used as catalyst regeneration materials, and catalysts can be regenerated through adsorption, oxidation, or reduction methods to restore their catalytic activity and extend their service life