氮碳阴极饱和后等离子体电解抛光对钢表面粗糙度的影响

IF 1.1 Q4 ELECTROCHEMISTRY
S. A. Kusmanov, I. V. Tambovskiy, I. S. Gorokhov, P. N. Belkin
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引用次数: 0

摘要

文摘:研究了结构钢经氮碳阴极饱和后改性层的一些特性。用扫描电子显微镜和光学显微镜观察了层的结构;通过能量色散分析确定了该层的元素组成。显微硬度和粗糙度采用标准方法测量。在渗碳、渗氮和氮化碳的阴极过程中发现了氧化层的形成,与阳极处理过程中观察到的氧化层相当。在含氯化铵的溶液中,阴极气-气包线具有一定的氮势。结果表明,在甘油和氯化铵溶液中阴极渗碳后,20钢表面的最大显微硬度达到900 HV,超过了阳极渗碳的显微硬度。硝酸铵和甘油溶液中氮碳处理后的20钢表面粗糙度可降低1.3倍,后续在氯化铵溶液中进行阳极抛光。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plasma Electrolytic Polishing Effect on Steel’s Surface Roughness after Cathodic Saturation with Nitrogen and Carbon

Abstract

Some characteristics of the modified layers after the structural steels' cathodic saturation with nitrogen and carbon were studied. The structure of the layers was examined using scanning electron and optical microscopes; the layer’s elemental composition was determined by energy dispersive analysis. Microhardness and roughness were measured using standard methods. The formation of oxide layers was found during the cathodic processes of carburizing, nitriding, and nitrocarburizing comparable to those observed during the anodic treatment. A certain nitrogen potential of the cathode vapor-gaseous envelope formed in solutions containing ammonium chloride was noted. It was shown that the maximum microhardness of the layer on steel 20 after cathodic carburizing in a glycerol and ammonium chloride solution reached 900 HV, which exceeds that obtained during the anodic carburizing. The steel 20 surface roughness nitrocarburized in the solution of ammonium nitrate and glycerol can be reduced by 1.3 times using subsequent anodic polishing in the ammonium chloride solution.

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来源期刊
Surface Engineering and Applied Electrochemistry
Surface Engineering and Applied Electrochemistry Engineering-Industrial and Manufacturing Engineering
CiteScore
1.70
自引率
22.20%
发文量
54
审稿时长
6 months
期刊介绍: Surface Engineering and Applied Electrochemistry is a journal that publishes original and review articles on theory and applications of electroerosion and electrochemical methods for the treatment of materials; physical and chemical methods for the preparation of macro-, micro-, and nanomaterials and their properties; electrical processes in engineering, chemistry, and methods for the processing of biological products and food; and application electromagnetic fields in biological systems.
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