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Characterization of plasma discharge channel in EDM using photography and spectroscopy

Ling Qin, Chen Liu, Ruixue Zhang, Yaou Zhang, Xiaodong Yang, Wansheng Zhao

2022Procedia CIRP13 citationsDOIOpen Access PDF

Abstract

The plasma discharge channel of electrical discharge machining (EDM) brings a temperature of several thousands of degrees Celsius into the gap between the anode and cathode, resulting in the material removal by means of melting and evaporating. To investigate the characteristics of the plasma discharge channel, high-speed imaging technology is adopted to observe the dimension of the plasma. A spectrometer is used to calibrate the temperature of the plasma as well. Then the particle-in-cell with Monte Carlo collision (PIC-MCC) simulation is conducted to analyze the variation and distribution of the plasma and heat flux. The experimental results demonstrate that the discharge channels’ morphology obtained is stable after a few microseconds of expansion after breakdown, and the diameter of discharge channel and the current density increases with the increase of discharge current. Besides, the emission intensity of plasma increases with the increase of electrical parameters. However, the temperature of plasma decreases after high current, which means debris particles make machining condition deteriorated. Finally, the simulation results demonstrate that despite the current density increases, the maximum heat flux at the center of electrode reduces rapidly with the expansion of the discharge channel. The distribution of heat flux upon electrode evolves towards "wider and flatter", leading to larger debris particles than exceptional size.

Topics & Concepts

Characterization (materials science)SpectroscopyPlasmaMaterials scienceChannel (broadcasting)Laser-induced breakdown spectroscopyAnalytical Chemistry (journal)EngineeringNanotechnologyPhysicsElectrical engineeringChemistryEnvironmental chemistryAstronomyNuclear physicsAdvanced Machining and Optimization TechniquesAdvanced Surface Polishing TechniquesMetal and Thin Film Mechanics
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