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Experimental study of the interaction of a jet high-frequency inductive discharge of low pressure with a copper surface
Russian version
Kayumov R. R. 1, Abdullin I.Sh. 2, Gaisin Al.F.1
1Tupolev Kazan National Research Technical University (KAI), Kazan, Tatarstan, Russia
2LLC “Plasma-VST”, Kazan, Russia
Email: almaz87@mail.ru
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The article presents the results of a study of the interaction of a low-pressure jet high-frequency inductive discharge (HFID) with a liquid plasma-forming medium on the surface of an M1 copper plate. The discharge was generated in a quartz tube with a spiral inductor. The electrophysical characteristics, as well as the types and shapes of plasma structures formed during material processing, were studied. The surface morphology of the samples was examined before and after processing, and contact angle measurements were conducted to assess changes in the surface energy of the copper. Thermographic measurements allowed us to determine the temperature distribution in the HFID discharge combustion zone. The obtained results demonstrated the potential of the jet HFID discharge for modifying the copper surface and open up prospects for its application in hardening and protecting metallic materials. Keywords: high-frequency inductive discharge, plasma-liquid systems, discharge combustion, copper.
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