Experimental Study on Role of Tool-Work Materials and Machining Conditions on Built-Up Edge Formation

Mechanical Engineering eJournal Pub Date : 2021-03-05 DOI:10.2139/ssrn.3799073

Soumyajit Das, A. B. Chattopadhyay

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Abstract

Built-up Edge is a well-known phenomenon in the manufacturing industry which probably a danger for the quality of the semi-finished or finished product. This unfavourable incident hampered surface finish and reduce the life f tool. During any machining operation such as turning; the tool and the performed blank stick together like welding action. Under high compressive stress, seizure keeps the material from sliding over the cutting tool rake face. The presence or non-appearance of a developed edge (BUE) is significant according to apparatus wear and surface completion. The potential systems and cycles of wear impacted by the various kinds of the built-up edge were talked about in our study. Metallographic examinations have indicated that recrystallization happens in the streamed layer. The progression of sub microscopic crystallites over the tool-face affects tool wear. From the experiment, the most positive cutting conditions, from the perspective of both wear and surface completion, happen without a developed edge. This work and moderate reports on the investigation of the BUE calculation of C30 steel machined at low rates with and without a cutting liquid.

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刀具加工材料和加工条件对堆积边形成作用的实验研究

堆积边是制造业中一个众所周知的现象，它可能对半成品或成品的质量构成威胁。这种不利的事件阻碍了表面光洁度，降低了工具的使用寿命。在车削等机械加工过程中;该工具与坯料进行了类似焊接的粘接动作。在高压应力下，截留可防止材料在刀具前刀面上滑动。根据仪器的磨损和表面完成情况，是否出现发达边缘(BUE)是很重要的。讨论了各种堆积边缘对潜在磨损系统和周期的影响。金相检查表明，再结晶发生在流化层。刀具表面亚显微晶的发展影响刀具的磨损。从实验来看，从磨损和表面完井的角度来看，最有利的切削条件是在边缘不发达的情况下发生的。本文研究了C30钢在有切削液和无切削液的情况下低速加工的BUE计算。

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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Mechanical Engineering eJournal

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