Using MgAl2O4 nano-powder obtained by unique high-temperature-calcining methods as the raw material, with a six-pressure-source machine which is usually used for diamond synthesis, MgAl2O4 transparent nano-ceramic has been successfully prepared for the first time by ultrahigh pressure sintering at low temperature from 800 to 1100℃under high pressures from 3 to 5 GPa.

Optical characteristics of Yb:Y_2O_3 transparent ceramic;

Optical and scintillation properties of Ce:YAG crystal and transparent ceramics

The YAG transparent ceramic shows high density and low porosity,while the shape of the grains is regular polygon with the size of about 2.

Preparation and properties of non-stoichiometric MgO·nAl_2O_3 transparent ceramics;

Influencing factors on transparency of transparent ceramics;

Preparation and characteristics of Nd∶YAG super-fined powders for laser transparent ceramics;

Fabrication of YAG powder and translucent ceramics by CO(NH_2)_2 co-precipitation method;

Fabrication of YAG ultrafine powder and translucent ceramics by co-precipitation method;

In order to validate both oxidation phenomena of SiC nano powder during sintering and variety in properties of nano-ceramics after oxidation,Al2O3/SiC nanocomposite was fabricated through pressureless sintering in argon atmosphere and in air respectively.

An effective method to prevent the aggregation and growth of nano-ceramics .

The research status of the multi-phase composite ceramic tool materials such as nano-ceramics, functionally gradient ceramics and zirconia ceramics are summarized primarily.

Research on the strengthening and toughening of nanoceramics;

The capabilities of nanoceramics are introduced.

We analyzed the property of the nanoceramics in forming and sintering process in this paper.