跳到主要內容

簡易檢索 / 詳目顯示

回結果列表
研究生: 劉嘉濶
Jia-kuo Liu
論文名稱: 電化學製作螺紋狀微電極之研究
The Investigation on the Fabrication of Thread-like Micro-pins by Electrochemical Machining
指導教授: 洪勵吾
Lih-wu Hourng
口試委員:
學位類別: 碩士
Master
系所名稱: 工學院 - 機械工程學系
Department of Mechanical Engineering
論文出版年: 2013
畢業學年度: 101
語文別: 中文
論文頁數: 102
中文關鍵詞: 微電化學加工鎢棒微電極螺紋狀微電極
外文關鍵詞: electrochemical micro-machining, tungsten rod microelectrodes, thread microelectrode
相關次數: 點閱:10下載:0
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報

    • 本文研究目的為利用電化學加工將直徑510um的鎢棒製作為螺紋狀微針,希望在利用其做為電化學鑽孔的電極工具時,能增加排屑、排氣泡以及電解液更新。論文中觀察螺紋形成之機制,且探討各加工參數(如:操作電壓、加工時間、陽極旋轉速率、多次加工),對製作出螺紋狀微電極之影響性。
    由實驗結果得知陽極在不同旋轉速率的條件下,量測到的I-V Curve會不相同;極限電流的大小與對應的電壓會隨著陽極旋轉速率提高而增加;在極限電流情形下加工鎢棒會形成螺紋狀微電極,並且螺紋形成長度會隨著轉速變高而變長。生成之螺紋會隨加工時間之拉長而逐漸消失;利用多次加工方法,亦即螺紋生成至一定程度時,將加工電壓降低,使其由電化學拋光變成電化學蝕刻,即可形成較深的螺紋電極;在操作電壓2.6V、加工時間2min、陽極旋轉速率4000rpm情況下加工,得到最佳的螺紋狀微電極。

    The purpose of present thesis is to fabricate a thread-like micro-pin, which can be used as the electrode tool in the electrochemical micro-drilling and enhances the removal of dissolved metal, expulsion of producing gases, and recirculation of the electrolyte. The formation mechanism of thread is specially forcused. The influence of working parameters, such as applied voltage, machining time, anode rotating speed, and multiple-step machining, on the fabrication thread-like micro-pin is investigated.
    Experimental results show that the I-V curves under various anode rotating speeds are different. The limiting current and the corresponding voltage increase as the anode rotating speed increases. The thread can be fabricated under the condition of limiting current, where the electrochemical mechanism is polishing. However, the formed thread will be dimished gradually as the machining proceeds. A multi-step machining method can be applied to enhance the depth of thread. That is, as the thread is formed to a certain stage, a lower voltage is applied such that the electrochemical mechanism is switched to itching, instead of polishing. The thread will thus become deeper. A optimal thread-like micro-pin can be obtained under applied voltage of 2.6 V, machining time of 2 minutes, and anode rotating speed of 4000 rpm.

    目錄 致謝 I 摘要 II Abstract III 目錄 IV 表目錄 VII 圖目錄 VIII 符號說明 XI 第一章 緒論 1 1-1前言 1 1-2電化學加工 3 1-3文獻回顧 4 1-4研究目的 8 第二章 理論 10 2-1電化學基本理論 10 2-2極化 11 2-3電解液導電度 13 2-4電流密度與電流效率 15 2-5電化學拋光原理 16 2-6液相質傳動力學 18 2-7電化學反應式 21 第三章 實驗設備與步驟 23 3-1實驗設備 23 3-1-1機台結構設計 23 3-1-2刀具進給控制系統 24 3-1-3伺服馬達 25 3-1-4電源供應系統 25 3-1-5導電度量測器 26 3-1-6恆電位儀 26 3-1-7金相顯微鏡 27 3-1-8高速攝影機 27 3-2實驗材料 28 3-2-1陽極電極工件 28 3-2-2陰極電極片 29 3-2-3電解液-氫氧化鈉 30 3-3實驗步驟 30 第四章 結果與討論 33 4-1電解液濃度對螺紋狀微電極製作之影響 34 4-2電極轉速對極限電流/電壓之影響 34 4-3操作電壓對螺紋狀微電極製作之影響 36 4-4加工時間對螺紋狀微電極製作之影響 37 4-5陽極旋轉對螺紋狀微電極製作之影響 38 4-6多次加工對螺紋狀微電極製作之影響 40 4-7螺紋形成機制之觀察 41 第五章 結論 44 5-1結論 44 5-2未來展望 46 參考文獻 47 附表 50 附圖 55

    參考文獻
    1. 楊龍杰編著,認識微機電,滄海書局(2001)
    2. 徐泰然著,朱銘祥譯,微機電系統與微系統,普林斯頓(2003)
    3. J. A. McGeough, M. Leu, K. P. Rajurkar, A. DeSilva, Q. Liu, Electroforming Process and Application to Micro/Macro Manufacturing, CIRP Annals Manufacturing Technology, Vol. 50 (1), pp. 499-502 (2001)
    4. 木本康雄著,賴耿陽譯著,精密加工之電學應用,復漢出版社(1982)
    5. 佐藤敏一著,賴耿陽譯著,金屬腐蝕加工技術,復漢出版社(1986)
    6. Y. M. Lim, S. H. Kim, An Electrochemical Fabrication Method for Extremely Thin Cylindrical Micropin, International Journal of Machine Tools & Manufacture, Vol. 41, pp. 2287-2296 (2001)
    7. Y. M. Lim, H. J. Lim, J. R. Liu, S. H. Kim, Fabrication of Cylindrical Micropins with Various Diameters Using DC Current Density Control, International Journal of Materials Processing Technology, Vol. 141, pp. 251-255 (2003)
    8. S. H. Ahn, S. H. Ryu, D. K. Choi, C. N. Chua, Electro-chemical Micro Drilling Using Ultra Short Pulses, Precision Engineering, Vol. 28, pp. 129-34 (2004)
    9. Z. Wang, B. Zhu, G. Cao, Fabricating Microelectrode by Electrochemical Micromachining, Proceedings of SPIE, Vol. 6041, pp. 1-5 (2006)
    10. S. H. Choi, S.H. Ryu, C.N. Chu, Fabrication of WC Micro-shaft by Using Electrochemical Etching, International Journal of Advanced Manufacture Technology, Vol. 31, pp. 682-687 (2007)
    11. E. S. Lee, S. Y. Baek, C. R. Cho, A Study of the Characteristics for Electrochemical Micromachining with Ultrashort Voltage Pulses, International Journal of Advanced Manufacture Technology, Vol. 31, pp. 762-769 (2007)
    12. D. Zhu, K. Wang, N. S. Qu, Micro Wire Electrochemical Cutting by Using in Situ Fabricated Wire Electrode, CIRP Annals - Manufacturing Technology, Vol. 56, pp. 241-244 (2007).
    13. J.F. Thorpe, R.D. Zerkle, Theoretical Analysis of the Equilibrium Sinking of Shallow, Axially Symmetric, Cavities by Electrochemical Machining, Electrochemical Society, Princeton, pp. 1-39(1971)
    14. H. P. Tsui, J. C. Hung, J. C. You, B.H. Yan, Improvement of Electrochemical Microdrilling Accuracy Using Helical Tool. Material and Manufacturing Processes, Vol. 23, pp. 499-505 (2008)
    15. 范智文,利用電化學加工製作微電極與鑽孔之研究與分析,國立中央大學機械工程學系,博士論文,5 月(2010)
    16. 張馨予,利用電化學加工製作螺旋型微電極之參數分析,國立中央大學機械工程學系,碩士論文,6月(2011)
    17. M. Datta, D. Landolt, Fundamental Aspects and Applications of Electrochemical Microfabrication, Electrochemical Acta, Vol. 45,pp.2535–2558 (2000)
    18. 田福助編著,電化學基本原理與應用,五洲出版社(2004)
    19. 胡啟章編著,電化學原理與方法,五南圖書(2002)
    20. H. Hocheng, P.S. Pa, Electropolishing and Electrobrightening of Holes Using Different Feeding Electrodes, International Journal of Materials Processing Technology. Vol. 89-90, pp. 440-446 (1999)
    21. 陳裕豐,高潔淨閥件之流道表面處理-電解拋光(EP)技術,機械工業雜誌,198 期, 230-240 頁,9 月(1999)
    22. S. V. Prasad, M. T. Dugger, T. R. Christenson, and D. R. Tallant, LIGA Micro-Systems: Surface Interactions, Tribology, and Coatings, International Journal of Manufacturing Processes, Vol. 6, pp. 107-116(2004)

    QR CODE
    :::