ECDM过程温度的实验测量与理论估计

A. V. Kulkarni, M. Karnik
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引用次数: 10

摘要

电化学放电可以有效和经济地用于加工各种导电和不导电材料、陶瓷和复合材料。这也可用于金属的选择性沉积和微焊接。它在小型金属零件快速成型方面的潜力已得到证实。所有这些过程都需要产生高于所考虑的金属熔化温度的温度。本文给出了电化学放电加工(ECDM)过程温度的实验测量和理论估计结果。在ECDM中首次进行了现场温度测量,特别是在加工区域采用各种温度传感方案。将火花作为工件表面恒定的圆形热源,并考虑工件各离散单元的热平衡,计算出工件不同半径处的温度。实验测量和理论估计的温度结果具有可比性。
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Experimental Measurements and Theoretical Estimation of Temperature in ECDM Process
Electrochemical discharge can be effectively and economically used for machining of a wide range of conducting and non-conducting materials, ceramics, and composites. This can be also used for selective deposition of metals and micro welding. Its potentials for rapid prototyping of small metallic parts have been vindicated. All these processes require generation of temperatures above the melting temperature of the metal under consideration. In the present work, experimentally measured and theoretically estimated temperature results are presented for electro chemical discharge machining (ECDM) process. In situ temperature measurements are performed for the first time in ECDM, especially, in the machining zone with various temperature sensing schemes. The temperatures at different radii of the work piece are calculated by considering the spark as a constant, circular heat source on the surface of the work piece and considering the heat balance of each discretised element of the work piece. Experimentally measured and theoretically estimated temperature results are comparable.
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