ATOMIC-DISLOCATION MODEL OF SURFACE LAYER REMOVAL BY JET ELECTROLYTE-PLASMA POLISHING

Voronezh Scientific-Technical Bulletin Pub Date : 2024-04-02 DOI:10.34220/2311-8873-2024-31-51

Alexander Popov

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Abstract

This work is devoted to the development of a model for the removal of surface layers of anode material due to a jet electrolyte-plasma discharge formed by a hollow cathode. The results of studies of the main types of discharges that occur during the formation of jet electrolyte-plasma processing are presented. The influence of each type of discharge on the morphology of the surface layer of the anode-product was studied. The power, lifetime and energy of single discharges are estimated, and their influence on the surface is assessed. A theory has been proposed for the removal of surface layers by single discharges at the atomic dislocation level. Theoretical calculations are confirmed by the results of experimental studies and multiphysics simulations carried out in the COMSOL Multiphysics program. Practical research results confirm the possibility of reducing the roughness parameter Ra during jet electrolyte plasma by more than 20 times, while obtaining an extremely low parameter Ra of 0.019 μm. The area of application of the results of these studies may be the development of technological processes for dimensional and finishing processing of curved surfaces, such as blisks, turbine blades, and various products for household and medical purposes.

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喷射电解质等离子抛光去除表面层的原子位错模型

这项研究致力于开发一个模型，用于去除由空心阴极形成的喷射电解质-等离子体放电导致的阳极材料表面层。文中介绍了对喷射电解质-等离子体加工过程中发生的主要放电类型的研究结果。研究了每种放电类型对阳极产品表面层形态的影响。估算了单次放电的功率、寿命和能量，并评估了它们对表面的影响。从原子位错层面提出了单次放电去除表面层的理论。实验研究和在 COMSOL 多物理场程序中进行的多物理场模拟的结果证实了理论计算。实际研究结果证实，在喷射电解质等离子体过程中，可以将粗糙度参数 Ra 降低 20 倍以上，同时获得 0.019 μm 的超低参数 Ra。这些研究成果的应用领域可能是开发用于曲面（如叶片、涡轮叶片以及各种家用和医疗产品）的尺寸和精加工的技术流程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Voronezh Scientific-Technical Bulletin

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