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    Please use this identifier to cite or link to this item: http://ir.lib.ksu.edu.tw/handle/987654321/9075

    Title: 微孔放電加工參數對高降伏鋼加工特性影響之研究
    其他題名: Study on Influence of Machined Characteristics of Micro-hole EDM Parameters for High-yielding Steel
    Authors: 楊振峰
    Chen-Feng Yang
    指導教授: 于劍平
    Keywords: 微孔放電加工
    Micro-hole discharge machining
    Material removal rate,Electrode wear ratio,Hole-enlargement
    Electrode wear ratio
    Date: 2008-06-09
    Issue Date: 2010-03-06 17:44:33 (UTC+8)
    Abstract: 微孔放電加工對微細元件及高硬度、高強度等難加工材料,具有十分優越之加工特性。然加工過程中加工表面因急熱驟冷作用容易產生微裂紋、氣孔等缺陷,對加工表面品質造成嚴重的影響。
    Micro-hole electrical discharge machining(Micro-hole EDM)has advantageous characteristics of machining for micro-components and difficult cutting materials with high hardness and high strength. However, because the effect of rapidly heating and fast cooling during the period of machining, the defects, such as micro-cracks, gas holes…etc., was easy to be induced serious influences for machined surface quality.
    In this study, the high yielding steel(HY-80) was employed to proceeding micro-hole electrical discharge machining and the material removal rate (MRR),electrode removal ratio(ERR), hole-enlargement(HE), surface morphology were investigated. And the relationship between machining parameters and machining characteristics was studied.
    Based on the results of experimental analysis, the pulse current and duration on time increase the MRR and HE will increase. The SEM was used to observe the change of surface topography for high yielding steel of inlet region, middle region, and outlet region after EDM. And when the pulse current was increased, the deeper and bigger EDM craters were found and the height of EDM crater was decreased. The duration on time was increased, the area of EDM crater was increased and the height of crater and pockmark were decreased. Observing the surface crack, we found the less of pulse current, the fewer of the crack. And the pulse current was increased, the number of crack was getting fewer.
    Appears in Collections:[機械工程系所] 博碩士論文

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