Features of the structure of metal composite alloy obtained by electric slag remelting with controlled magneto-hydrodynamic action

The results of experimental studies on the use of mineral raw materials containing zirconium oxides without its deep technological processing to create alloys by electroslag remelting are presented. Dependences of the transition of zirconium into remelted low-carbon steel on the magnitude of electromagnetic pulses have been established. It has been experimentally proven that zircon concentrate can be used as an alloying component to obtain alloyed alloys and coatings in electroslag technologies. In this case, the concentrate is used in a comprehensive manner, without additional technological processing

Features of the structure of metal composite alloy obtained by electric slag remelting with controlled magneto-hydrodynamic action

The results of experimental studies on the use of mineral raw materials containing zirconium oxides without its deep technological processing to create alloys by electroslag remelting are presented. Dependences of the transition of zirconium into remelted low-carbon steel on the magnitude of electromagnetic pulses have been established. It has been experimentally proven that zircon concentrate can be used as an alloying component to obtain alloyed alloys and coatings in electroslag technologies. In this case, the concentrate is used in a comprehensive manner, without additional technological processing

Production of functional materials on the basis of tungsten multicomponent mineral resources

We produced tungsten and tungsten carbide as a result of the synthesis of multicomponent tungsten mineral resource with the employment of high density energy flow. The results of experiments concerned with the possibility of using high-density energy to synthesize functional materials for industrial use are presented as well

Production of functional materials on the basis of tungsten multicomponent mineral resources

We produced tungsten and tungsten carbide as a result of the synthesis of multicomponent tungsten mineral resource with the employment of high density energy flow. The results of experiments concerned with the possibility of using high-density energy to synthesize functional materials for industrial use are presented as well