Comparative study of surface roughness between electropolishing process and traditional sanding for low carbon steel

International Journal of Scientific World Pub Date : 2024-04-24 DOI:10.14419/m309tn27

Tobias Eduardo Schmitzhaus, Matheus Do Nascimento Ângelo Cristaldo, Wagner Cristiano Schmitzhaus

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Abstract

Steel is a versatile material utilized across various sectors, encompassing both industrial and decorative applications. AISI (American Iron and Steel Institute) 1005 steel, recognized for its low carbon content (approximately 0.05% carbon), is commonly referred to as mild steel and finds extensive use in society. This study aims to investigate the influence of electropolishing parameters, specifically current density, and time, on the surface roughness of steel. The methodology involved the preparation of samples for electropolishing tests, systematic variation of the parameters, and subsequent analysis of the resulting surface finish through roughness measurements. Samples subjected to higher current densities for shorter durations exhibited substantial reductions in roughness, while longer durations resulted in minimal or negligible changes in roughness regardless of the current density employed. This comparative analysis between electropolishing and tradi-tional sanding techniques provides valuable insights into optimizing surface finishing processes for low carbon steel applications.

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低碳钢电解抛光工艺与传统打磨工艺表面粗糙度对比研究

钢是一种用途广泛的材料，在工业和装饰领域都有应用。AISI（美国钢铁协会）1005 钢因含碳量低（约 0.05%）而被普遍称为低碳钢，在社会中得到广泛应用。本研究旨在探讨电解抛光参数（特别是电流密度和时间）对钢表面粗糙度的影响。研究方法包括制备用于电解抛光测试的样品，系统地改变参数，然后通过粗糙度测量分析所产生的表面光洁度。在较短时间内使用较高电流密度的样品显示出粗糙度的大幅降低，而在较长时间内，无论使用何种电流密度，粗糙度的变化都很小或可以忽略不计。电解抛光和传统打磨技术之间的比较分析为优化低碳钢应用的表面处理工艺提供了宝贵的见解。

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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International Journal of Scientific World

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