MODELING THE PROCESS OF ENERGY-MECHANICAL INTENSIFICATION OF MICROPLASMA PROCESSING IN A GAS ENVIRONMENT
Keywords:
Integrated technology of electric spark doping with additional ultrasonic influence, anode-cathode interactions, electric discharge, anode vibration, electrode erosion, drop solidificationAbstract
The paper proposes a mathematical model of the energy mechanical intensification of the electric spark doping method by applying additional ultrasonic influence with the development and determination of the relationship of the components of the system analysis, including modeling at the level of mathematical analogies, structuring, hierarchy, and study of the laws of interaction in the metal-medium-coating system, the relationship of the system with operating conditions. Physical models of plasma phenomena in electric spark doping are presented as a basis for developing the theory of integral technology involving ultrasound.
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