电化学工艺参数对哈氏合金 C-276 加工速度和表面腐蚀因子的影响

IF 0.6 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Materiali in tehnologije Pub Date : 2023-12-11 DOI:10.17222/mit.2023.981

P. Venugopal, T. G. Arul, V. Selvam, K. Saranya

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引用次数: 0

摘要

电化学微机械加工（ECMM）是制造难切削材料（如镍基合金、钛合金和金属基复合材料）的常用方法。因此，它被广泛应用于航空航天、汽车和生物医学等行业。本研究使用哈氏合金 C-276 作为工件，不锈钢电极涂有聚四氟乙烯 (PTFE) 以避免杂散电流。研究了电压、占空比和电解液浓度等工艺参数对加工速度和表面腐蚀因子的影响。9-11 V 的电压范围对加工速度有影响。电解液浓度范围为 25-35 g/L 时，加工速度呈线性增长，电解液浓度为 15g/L 时，表面腐蚀因子最高，为 1.1449。表面粗糙度深度剖面图显示，Rz、Rt 和 Ra 值分别为 16.3 µm、99.1 µm 和 1.90 µm，以及 15.4 µm、50.6 µm 和 1.49 µm。

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EFFECT OF ELECTROCHEMICAL PROCESS PARAMETERS ON THE HASTELLOY C-276 ALLOY FOR MACHINING SPEED AND SURFACE-CORROSION FACTOR

Electrochemical micromachining (ECMM) is a well know for manufacturing hard-to-cut materials, e.g., nickel-based alloys, titanium alloys and metal-matrix composites. For this reason it finds application in aerospace, automobile and biomedical industries. In this research Hastelloy C-276 is used as a workpiece and stainless-steel electrode coated with polytetrafluoroethylene (PTFE) to avoid stray current. The effect of process parameters such as voltage, duty cycle and electrolyte concentration on the machining speed and the surface-corrosion factor were studied. The range of 9–11 V has an impact on the machining speed. The electrolyte concentration range of 25–35 g/L shows a linear increase in the machining speed and the surface-corrosion factor is found to be highest at 1.1449 for an electrolyte concentration of 15g/L. The surface roughness depth profile depicts the values of Rz, Rt, Ra are 16.3 µm, 99.1 µm and 1.90 µm, and 15.4 µm, 50.6 µm and 1.49 µm, respectively.

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来源期刊

Materiali in tehnologije 工程技术-材料科学：综合

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： The journal MATERIALI IN TEHNOLOGIJE/MATERIALS AND TECHNOLOGY is a scientific journal, devoted to original papers and review scientific papers concerned with the areas of fundamental and applied science and technology. Topics of particular interest include metallic materials, inorganic materials, polymers, vacuum technique and lately nanomaterials.