B2O3 powder was reduced with the high-active Mg powder by the way of SHS and the amorphous boron powder used as ultra-fine high energy fuel presently was obtained by the magnesiothermic reduction reaction B2O3+3Mg→2B+3MgO.

The reactive adiabatic temperature of thermal reduction with magnesium was theoretically calculated,the differential thermal analysis on 2Mg-TiO2 was done,the apparent activation energy and the reaction progressions were calculated on the basis of the curve of differential thermal analysis.

Effect of atmosphere on synthesis of titanium nitride in aluminothermic reduction process;

Using metal Al and TiO2 powders as starting materials TiN/Al2O3 composite ceramics were prepared by aluminothermic reduction of TiO2 in coke bed and a flowing nitrogen stream.

The result of thermodynamic calculation shows that the reduced products of V_2O_5 carbothermic reduction is the carbide of vanadium,the system of silicothermic reduction should add CaO,aluminothermic reduction can reach a reduc- tion rate of 99%,the reduction ability of Al is more effective than that of C and Si.