Robotization of conventional electrolytic process in metallography

Practical Metallography Pub Date : 2023-09-14 DOI:10.1515/pm-2023-1056

O. Ambrož, J. Čermák, P. Jozefovič, Š. Mikmeková

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Abstract

Abstract Electrolytic polishing is a finishing method that removes material from a metal or alloy through an anodic dissolution process. Etching can often be performed in the same electrolyte by simply reducing the applied voltage to 10 percent of that required for polishing. Manufacturers of metallographic equipment present their products as automated. Only the electrolysis process itself is automated. After finishing, the sample must be immediately removed manually by the operator and cleaned. This process is critical with regard to the quality of the final sample surface and safety, because hazardous substances are often handled. The robot is placed next to an electrolytic equipment and handles all sample movements and the cleaning process in the ultrasonic bath in this experiment. The samples are made from ER308LSi austenitic stainless steel using 3D printing by Wire Arc Additive Manufacturing (WAAM). The final surface is achieved electrolytically on the commercial equipment. The aim of the experiment is to compare the microstructure, especially with regard to the possibility of distinguishing delta ferrite. The surface is characterized using various microscopic techniques. Robotization can be the key to improving surface quality and safety.

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金相中传统电解工艺的自动化

电解抛光是一种通过阳极溶解过程从金属或合金中去除材料的抛光方法。蚀刻通常可以在相同的电解液中进行，只需将施加电压降低到抛光所需电压的10%。金相设备制造商表示他们的产品是自动化的。只有电解过程本身是自动化的。完成后，样品必须立即由操作人员手动取出并清洗。这一过程对最终样品表面的质量和安全性至关重要，因为经常要处理有害物质。在本实验中，机器人被放置在电解设备旁边，处理超声波浴中所有样品的移动和清洗过程。样品由ER308LSi奥氏体不锈钢制成，采用电弧增材制造(WAAM) 3D打印技术。最终的表面是在商用设备上电解获得的。实验的目的是比较微观结构，特别是关于区分三角铁氧体的可能性。使用各种显微技术对表面进行表征。机器人化是提高表面质量和安全性的关键。

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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Practical Metallography

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