The superfine-treatment of the industrial SiC powder was carried out by fluidized bed opposed jet mill(QLM-80K), and the effects of working pressure on superfine-treatment were studied.

The surface modification of industrial SiC powders was carried out by polyethyleneimine(PEI),and the effects of pH and adding content of PEI on flow characteristics of the powder before and after modified treatment were analyzed.

The surface modification of industrial SiC powders were carried out by polyethylene glycol (PEG 200), and the effects of PEG weight and liquid media on the flow characteristics, adsorption, thermal analysis and morphology of the modified powder were analyzed by TG, IR and SEM.

β-SiC powder has been widely used in electronics, information, precision machining, military, aerospace and other fields for its excellent high temperature resistance ,oxidation resistance, thermal stability, and its high hardness, small thermal expansion coefficient, large thermal conductivity, chemical corrosion resistance and good electrical properties.

The Al-doped β-SiC powders were obtained by combustion synthesis under low nitrogen pressure (0.

The low-carbon martensitic stainless steel was reinforced by surface modified SiC nano-powders.

The nodular cast iron were reinforced by surface modified SiC nano-powders.

Cast austenitic stainless steel reinforced by modified SiC nano-powders were prepared under industrial conditions.

Cast austenitic stainless steels reinforced by modified SiC nano-powders have been prepared with pour over process under industrial conditions,and the effect of modified SiC nano-powders on the pitting corrosion resistance of the austenitic stainless steel was characterized by pitting chemistry immersion and pitting electrochemistry tests,metallographic analysis,SEM and energy dispersive analysis.

Al2O3-C refractories were prepared by using fused corundum,natural graphite and ZrO2-SiC composite powder obtained by carbothermal reduction as raw materials.