簡易檢索 / 詳目顯示
| 研究生: |
鍾登凱 Deng-Kai Zhong |
|---|---|
| 論文名稱: |
竹碳運用於不鏽鋼的電解複合拋光效果之研究 A study on effect of electrolytic composite polishing on stainless steel using by bamboo carbon |
| 指導教授: |
顏炳華
Piin-Hwa Yan |
| 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: | 2014 |
| 畢業學年度: | 102 |
| 語文別: | 中文 |
| 論文頁數: | 84 |
| 中文關鍵詞: | 竹碳 、電解拋光 、複合加工 、不鏽鋼 |
| 外文關鍵詞: | Bamboo Charcoal, Electropolishing, Combined Machining, Stainless Steel |
| 相關次數: | 點閱:22 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 |
本文是運用竹碳對不鏽鋼進行電解拋光結合機械拋光的複合加工,以改善不鏽鋼上的表面粗糙度和竹碳電極的磨耗率。
竹碳具備植物多孔且緻密的微結構特性,其微細孔道具有高吸附能力,本文研究希望竹碳與工業技術做結合,以提升竹碳所附加的經濟價值。
本文使用電解複合拋光對加工時間、研磨粒種類、增加荷重、研磨粒濃度、拋光盤轉速、電極速度、電壓等製程參數進行實驗,並針對實驗後的不鏽鋼表面粗糙度、竹碳電極磨耗率、表面形貌,來進行結果分析探討。
This research is focus on electrolytic composite polishing combining with electro-polishing and mechanical polishing to optimize the surface roughness of stainless steel and the wear rate of bamboo carbon electrode.
Bamboo carbons’ microstructure are comparatively porous and dense, its micro-pores possess high adsorption capacity. In this article, we expect bamboo carbon could enhance the additional values by combing with existing industrial technologies.
The electrolytic composite polishing in this article are experimented with the parameters of machining time, abrasive, increasing load, concentration of abrasive, polishing plate speed, electrode speed and voltage of electrolytic composite polishing. And the roughness of stainless steel, the wear rate of bamboo carbon electrode and the surface morphology of the results are investigated and analyzed.
[1]H.Yamaguchietal, “Magnetic abrasive finishing of cutting tools for machining of titanium alloys”, CIRP Annals, Manufacturing Technology, Vol. 61, pp. 311–314, 2012
[2]E. Beltowska-Lehman, et al., ”Electrodeposition and characterisation of nanocrystalline Ni–Mo coatings”, Surface & Coatings Technology, Vol. 211, pp. 67–71, 2012
[3]J. Ma, W. Cheng, ”Deposition and packing study of sub-micron PZT ceramics usingelectrophoretic deposition”, Materials Letters, Vol. 56, pp. 721–727, November 2002
[4]T. Oshita, et al., ”Grinding performance of pellet prepared using nanosize ceria particles”, Journal of Alloys and Compounds, Vol. 408–412, pp. 1118–1122, 2006
[5]I. Mazurenko, ”Electrophoretic deposition of macroporous carbon nanotubeassemblies for electrochemical applications”, CARBON, Vol. 53, pp. 302–312, 2013
[6]Daisuke Ishimarua, et al., ”Burr suppression using sharpened PCD cutting edge by ultraviolet-ray irradiation assisted polishing”, Procedia CIRP, Vol. 1, pp. 190 – 195, 2012
[7]A. Sidpara, V.K. Jain, ”Nano–level finishing of single crystal silicon blank using magnetorheologicalfinishing process”, Tribology International, Vol. 47, pp. 159–166, 2012
[8]Mohsen Ghahramani Nik et al., ”Ultrasonic-Assisted Grinding of Ti6Al4V Alloy”, Procedia CIRP, Vol. 1, pp. 370 – 375, 2012
[9]李新民,「304不鏽鋼之摩擦鑽孔特性研究」國立中央大學,博士論文,民國97年
[10]洪榮洲,「結合微細放電與電解拋光之微孔加工研究」,國立中央大學,碩士論文,民國93年。
[11]陳正德,「碳化矽的電泳沈積現象探討」,國立中央大學,碩士論文,民國91年
[12]彭國芳,「電泳沉積輔助竹碳拋光效果之研究」,國立中央大學,碩士論文,民國101年
[13]莊英鍠,「鑲入鎳-鑽石顆粒複合鍍層的竹碳工具之研發及其研磨加工特性研究」,國立中央大學碩士論文,民國 100年
[14]林秉威,「竹炭拋光矽晶圓特性之研究」,國立中央大學碩士論文,民國99年6月
[15]藍浩繁、賴宏亮、鄧維豐,「孟宗竹竹炭性質之研究」,作物、環境與生物資訊,第五期,180~186頁,97年9月
[16]朱江涛、黄正宏、康飞宇、傅金和和岳永德,「竹炭的性能和应用研究
进展」,材料导报,第二十卷第四期,41~43頁,95年4月
[17]劉正字,「竹炭的功能及其利用」,台灣林業,第三十三卷第三期,30~36頁,96 年6 月
[18]T. Hryniewicz, K. Rokosz et al., ”SEM/EDX and XPS studies of niobium after electropolishing”, Applied Surface Science, Vol. 263, pp. 357–361, 2012
[19]A.M. Awad, E.A. Ghazy et al., ”Electropolishing of AISI-304 stainless steel for protection against SRB biofilm”, Surface & Coatings Technology, Vol. 206, pp. 3165–3172,2012
[20]Wojciech Simka, Marcin Kaczmarek, ”Electropolishing and passivation of NiTi shape memory alloy”, Electrochimica Acta, Vol. 55, pp. 2437–2441,2010
