• Title/Summary/Keyword: EDM (electrical discharge machining)

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Real-time Gap Control for Micro-EDM: Application in a Microfactory

  • Jung, Jae-Won;Ko, Seok-Hoon;Jeong, Young-Hun;Min, Byung-Kwon;Lee, Sang-Jo
    • International Journal of Precision Engineering and Manufacturing
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    • v.9 no.1
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    • pp.3-6
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    • 2008
  • Electrical discharge machining (EDM) is one of the most widespread nonconventional machining processes. Recently, a low-power micro-EDM process was introduced using a cylindrical electrode. Since its development, micro-EDM has been applied effectively to micromachining, and because the device setup for this process is simple, it is suitable for a microfactory that minimizes machines to fabricate small products economically in one system. In the EDM process, however, the electrode is also removed along with the workpiece. Therefore, the electrode shape and length vary as machining progresses. In this paper, a control method using a high speed realtime voltage measurement is proposed to regulate the rate and amount of material removed. The proposed method is based on the assumption that the volume of the workpiece removed in a single discharge pulses is nearly constant. The discharge pulses are monitored and controlled to regulate the amount of material removed. For this purpose, we developed an algorithm and apparatus for counting the number of discharge pulses. Electrode wear compensation using pulse number information was applied to EDM milling in a microfactory, in which a slight tilt of the workpiece may occur. The proposed control method improves the machining quality and efficiency by eliminating the inaccuracies caused by electrode wear and workpiece tilt.

Electrical Discharge Machining of Alumina Ceramic Matrix Composites Containing Electro-conductive Titanium Carbide as a Second Phase (도전성 탄화티타늄 이차상을 포함하는 산화알루니늄기 세라믹 복합체의 방전가공)

  • 윤존도;왕덕현;안영철;고철호
    • Journal of the Korean Ceramic Society
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    • v.34 no.10
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    • pp.1092-1098
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    • 1997
  • Electrical discharge machining (EDM) was attempted on a ceramic matrix composite containing non-conductive alumina as a matrix and conductive titania as a second phase, and was found successful. As the current or duty factor increased, the material removal rate (MRR) increased and the surface roughness also increased. The EDMed surface was covered with a number of craters of a circular shape having 100-200 microns of diameter. The melting and evaporation was suggested for the EDM mechanism. The bending strength decreased 44% after EDM, but the Weibull modulus increased more than twice. Combination of EDM and barre이 polishing resulted in the maintenance of the bending strength level. Temperature distribution near a spark in the sample was computer-simulated by use of finite element method, and was found to have similar shape to the one which the observed craters have.

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Optimizing the Process Parameters of EDM on SCM440 Steel (SCM440강의 방전가공에서 공정변수의 최적화)

  • Choi, Man Sung
    • Journal of the Semiconductor & Display Technology
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    • v.17 no.2
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    • pp.61-66
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    • 2018
  • The objective of this research study is to investigate the optimal process parameters of electrical discharge machining (EDM) on SCM440 steel with copper as a tool electrode. The effect of various process parameters on machining performance is investigated in this study. Modern ED machinery is capable of machining geometrically complex or hard material components, that are precise and difficult-to-machine such as heat treated tool steels, composites, super alloys, ceramics, etc. This paper reports the results of an experimental investigation by Taguchi method carried out to study the effects of machining parameters on material surface roughness in electric discharge machining of SCM440 steel. To predict the optimal condition, the experiments are conducted by using Taguchi's L27 orthogonal array. The work material was ED machined with copper electrodes by varying the pulsed current, pulse on-time, voltage, servo speed and spark speed. Investigations indicate that the surface roughness is strongly depend on pulsed current.

Process Optimization for Productivity Improvement during EDM machining of a micro-hole (마이크로 홀의 EDM 가공 시 생산성 향상을 위한 가공공정의 최적화)

  • Kwon, Won-Tae;Kim, Yeong-Chu
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.21 no.4
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    • pp.556-562
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    • 2012
  • Micro electrical discharge machining (${\mu}EDM$) has been used for non-conventional material removal. One drawback of ${\mu}EDM$ is low productivity. In this study, we tried to find the optimal machining conditions to manufacture the micro hole with an optimal machining time without loss of accuracy. Taguchi method was used to figure out the relation between machining parameters and characteristics of the process. It was found that the electrode wear, the entrance and exit clearance gave a significant effect on the diameter of the micro hole when the diameter of the electrode was identical. Grey relational analysis was used to determine the optimal machining condition for minimum machining time without loss of accuracy. The obtained optimal machining condition was the input voltage of 80V, the capacitance of 680pF, the resistance of $500{\Omega}$, the feed rate of $1.5{\mu}m$/s and the spindle speed of 2900rpm. The machining time was reduced to 48% without loss of accuracy under the optimal machining condition.

Machining Characteristics of ED-Drilling (ED-Drilling의 방전가공 특성)

  • 김창호;허관도;예상돈
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2000.11a
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    • pp.827-830
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    • 2000
  • This paper describes the machining characteristics of the sintered carbide and die steel by electric discharge drilling with various tubular electrodes. Electrical discharge machining(EDM) removes material from the workpiece by a series of electrical sparks that cause localized temperatures high enough to melt or vaporise the metal in the vicinity of the charge. In the experiment, four types of electrode which have different diameter are used with the application of continuous direct current and axial electrode feed. The controlled factors include the dimension of the electrode. In drilling by EDM, the dielectric flushed down the interior of the rotating tube electrode, in order to facilitate the removal of machining debris from the hole.

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Machining Characteristics of the Hybrid Machining System Comprising of EDM and Endmilling (방전과 엔드밀링이 결합된 하이브리드 공정의 가공특성)

  • Kim, Min-Yeop;Li, Chang-Ping;Kim, Jung-Hyun;Ko, Tae Jo
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.15 no.3
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    • pp.86-92
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    • 2016
  • Mechanical milling, in association with electrical discharge machining (EDM) for hybrid machining, is presented in this paper. An end mill cutting tool, an electrode of the EDM, was used for the system. That means that some parts were cut by the mechanical cutting process and others by the EDM. The possibility of combining both processes was simulated with the cutting simulation software. In addition, the machining reality was verified by measuring the electrical signal from the EDM power supply, which was measured in time and frequency domains. From this initial research, the hybrid machining system proposed in this paper appears to be well suited for difficult to cut material processing.

Fabrication of Micro Structure Using Electro Discharge Deposition (Electro Discharge Deposition (EDD)을 이용한 미세 구조물 제작)

  • 오석훈;민병권;박성준;이상조
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.1865-1868
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    • 2003
  • This paper provides a new method for hybrid machining, particularly suited to micro fabrication applications such as micro point, micro line, micro structure, micro partition and so on. Developed micro fabrication process by electrical discharge machining (EDM) and electrical discharge deposition (EDD) with metal powder (Ti, Fe) has been studied to build TiC or FeC structure. Titanium powder or iron powder is supplied from working fluid (kerosene or de-ionized water with powder) and adheres on a workpiece by the heat and electric power caused by the electrical discharge. The use of a tool electrode is expected to keep powder concentration high in the gap between a workpiece and a tool electrode and to accrete powder material on the workpiece. The deposition is tried under various electrical conditions (workpiece. tool electrode, working fluid, discharge current, voltage and powder etc.). On the other hand. using electrical discharge machining (EDM) with the same tool electrode, it can be used as a removal process (cutting) by electro erosion at the same time. Therefore. this new method can do a hybrid machining to build up and down a structure with the workpiece.

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Effects of Nanopowder Additives in Micro-electrical Discharge Machining

  • Tan, Peng-Cheong;Yeo, Swee-Hock;Tan, Yie-Voon
    • International Journal of Precision Engineering and Manufacturing
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    • v.9 no.3
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    • pp.22-26
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    • 2008
  • The use of electrical discharge machining (EDM) for micro-machining applications requires particular attention to the machined surface roughness and discharge gap distance, as these factors affect the geometrical accuracy of micro-parts. Previous studies of conventional EDM have shown that selected types of semi-conductive and non-conductive powder suspended in the dielectric reduced the surface roughness while ensuring a limited increase in the gap distance. Based on this, an extension of the technique to micro-EDM was studied Such work is necessary since the introduction of nanopowders suspended in the dielectric is not well understood. The experimental results showed that a statistically significant reduction in the surface roughness value was achieved at particular concentrations of the powder additives, depending on the powder material and the machining input energy setting. The average reduction in surface roughness using a powder suspended dielectric was between 14-24% of the average surface roughness generated using a pure dielectric. Furthermore, when these additive concentrations were used for machining, no adverse increase in the gap distance was observed.

Development of Desktop Dry Electrical Discharge Machining (EDM) System and Experimental Performance Evaluations (데스크톱 건성 방전가공 시스템의 개발 및 실험적 성능평가)

  • Lee, Sang-Won;Oh, Young-Seok;Ahn, Soo-Hong
    • Journal of the Korean Society for Precision Engineering
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    • v.27 no.1
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    • pp.119-124
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    • 2010
  • This paper addresses the design and fabrication of desktop die-sinking dry electrical discharge machining (EDM) system and its experimental performance analysis. The developed desktop dry EDM machine has the horizontal configuration with the size of $300{\times}200{\times}260mm$. The experimental performance analysis is conducted to investigate the effects of EDM conditions and dielectric gas temperature on the surface roughness of EDMed slots and number of EDM sparks. The experimental results demonstrate that low feed rate and large electrode displacement are good for better surface roughness and more number of EDM sparks. In addition, low temperature of dielectric gas results in better surface roughness.