Surface Modification by EDM with Carbon Powder Mixed Fluid using Titanium Electrode

Journal of the Japan Society of Electrical-machining Engineers Pub Date : 1999-07-30 DOI:10.2526/JSEME.33.73_31

A. Okada, Y. Uno, Hirao Kazuhisa, T. Takagi

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引用次数: 3

Abstract

Recently, it was reported that a hard TiC layer could be made on the machined surface by EDM using a titanium electrode in kerosene and this technique was applicable to cutting tool such as throwaway tip or endmill. However, the layer is relatively thin and the surface roughness is not so small. Then, it is difficult to apply this method to a metal mold which needs glossy surface. In this study, a new method to form TiC layer by EDM for smaller surface roughness and thick layer is proposed, and the effects of machining conditions on characteristics of the layer are experimentally investigated. Furthermore, the wear resistance of EDMed surface was evaluated.Experimental analysis made it clear that a thick and smooth TiC layer could be generated on the machined surface by EDM using a titanium electrode in carbon powder mixed fluid. It was also pointed out that the hardness of modified surface became higher with increases of discharge duration or carbon powder concentration in the kerosene type machining fluid, and that the wear resistance of the layer was much larger than that of base material.

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钛电极碳粉混合流体电火花加工表面改性研究

近年来有报道称，用钛电极在煤油中电火花加工可在加工表面形成坚硬的TiC层，该技术适用于一次性刀头或立铣刀等切削工具。然而，该层相对较薄，表面粗糙度也不是那么小。然后，这种方法很难应用于需要光滑表面的金属模具。提出了一种表面粗糙度较小、层厚较厚的电火花加工TiC层的新方法，并对加工条件对TiC层特性的影响进行了实验研究。并对EDMed表面的耐磨性进行了评价。实验分析表明，在碳粉混合流体中使用钛电极进行电火花加工，可以在加工表面产生厚而光滑的TiC层。同时指出，改性后的表面硬度随放电时间的延长或煤油型加工液中碳粉浓度的增加而升高，其耐磨性远高于基材。

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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Journal of the Japan Society of Electrical-machining Engineers

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