Spark Gap System of Electrical Discharge Machining (EDM)

B. Nugroho, A. Yahya, A. R. Mat Sidek, T. Andromeda, N. Khamis
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Abstract

EDM is a process of machining electrically conductive materials by precisely controlled electrical discharge through a small clearance gap that occur between an electrode and a workpiece in the presence of a dielectric fluid. Through EDM process, the material of workpiece are melted and gap distance will increase. In order to maintain a stable spark, the gap must be controlled. This paper presents control spark gap system of EDM using PID controller with voltage and position feedbacks. The results show Time Rise (Tr) of PID control with voltage feedback has a value about 75 seconds and Time Rise (Tr) of PID control with voltage and position feedbacks has a value about 18.6 seconds. The average error of gap distance in PID control with voltage feedback is 55.56 and the average error of gap distance in PID control with voltage and position feedbacks is 48.53. Addition of the position feedback is used to increase the rise time and stabilize distance the electrode and the workpiece.
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电火花加工火花间隙系统
电火花加工是一种加工导电材料的过程,通过在电介质存在的情况下电极和工件之间发生的小间隙间隙精确控制放电。通过电火花加工,工件的材料被熔化,间隙距离增大。为了保持稳定的火花,必须控制间隙。本文提出了采用带电压和位置反馈的PID控制器控制电火花加工火花间隙系统。结果表明,带电压反馈的PID控制的Time Rise (Tr)值约为75秒,带电压和位置反馈的PID控制的Time Rise (Tr)值约为18.6秒。带电压反馈的PID控制间隙距离的平均误差为55.56,带电压和位置反馈的PID控制间隙距离的平均误差为48.53。增加了位置反馈,增加了上升时间,稳定了电极与工件的距离。
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