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研究生:陳宗佑
研究生(外文):Tzung-You Chen
論文名稱:矩形表面織構對磨潤性能的最佳化設計
論文名稱(外文):The Optimum Design of Tribology Performance of Rectangular Surface Texture
指導教授:徐澤志徐澤志引用關係
口試委員:何旭川林俊源
口試日期:2012-7-30
學位類別:碩士
校院名稱:元智大學
系所名稱:機械工程學系
學門:工程學門
學類:機械工程學類
論文種類:學術論文
畢業學年度:100
語文別:中文
論文頁數:83
中文關鍵詞:摩擦係數最佳化設計
外文關鍵詞:friction coefficientoptimize design
相關次數:
  • 被引用被引用:3
  • 點閱點閱:304
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  • 下載下載:15
  • 收藏至我的研究室書目清單書目收藏:0
本研究針對不鏽鋼板上矩形表面織構在磨潤狀態下摩擦係數的最佳化設計,探討表面織構和操作參數如何影響摩擦係數,進而求出表面織構的最佳化設計方程式。
研究模擬分析以雷諾方程式為基礎,使用數值模擬分析軟體(Matlab)進行模擬,透過模擬分析各組參數相互間對摩擦係數的關係,將模擬結果取出各組參數之摩擦係數最小值做最佳化的方程式,並製作出表面織構最佳化設計之方程式。而在分析驗證方面,針對不同表面織構面積比、織構深度進行Pin-on-Disk磨潤實驗得到摩擦係數,進而比較模擬結果確立其可行性。
In this study, rectangular surface texture to optimize the design of the friction coefficient on the stainless steel plate in the tribological state, to explore how the surface texture and operating parameters affect the friction coefficient, and then find the optimize design equation of surface texture.
The basis of simulation analysis is by Reynold equation, use the numerical simulation analysis software (Matlab) to simulate, analyze each set of parameters with each other on the friction coefficient through the simulation, the simulation results, to use the minimum friction coefficient of each set of parameters to be optimized formula and produce a surface texture of the optimized design equation. The Pin-on-Disk Tribology experiment to get the friction coefficient in the validation of analysis for different surface texture area ratio, texture depth, and then compare the simulation results to establish its feasibility.
目錄
書名頁 I
中文摘要 II
英文摘要 III
誌謝 IV
目錄 V
表目錄 VIII
圖目錄 IX
符號說明 XIII
第一章 緒論 1
1.1前言 1
1.2研究目的 2
1.3文獻回顧 3
1.4本文架構 11
第二章 理論分析 14
2.1雷諾方程式 14
2.2最佳化概念 18
第三章 最佳化設計 23
3.1 數值模擬分析 23
3.1.1 數值模擬步驟 23
3.1.2 數值模擬結果 24
3.2最佳化設計方程式之建立 27
3.3最佳化設計方程式之推導 28
3.4最佳化設計方程式與模擬之比較 30
第四章 磨潤實驗 51
4.1 實驗設備 51
4.1.1 Falex磨耗試驗機 51
4.1.2 校正器 52
4.1.3 數據蒐集記錄器 53
4.1.4 超音波振洗機 54
4.1.5 旋轉塗佈機 54
4.1.6 雙面曝光機 54
4.1.7 表面輪廓儀 55
4.2 實驗步驟 55
4.2.1 試片參數設定 55
4.2.2 試片前處理 55
4.2.3 表面形貌觀察 56
4.2.4 Pin-on-Disk磨潤實驗 57
4.3 實驗結果 58
第五章 結論與建議 77
5.1結論 77
5.2建議 78
參考文獻 80
參考文獻
[1]萬軼,熊黨生,「雷射表面織構化改善摩擦學性能的研究進展」,摩擦學學報,第26卷,第6期,第603-606頁,2006年
[2]曆建全,朱華,「表面織構及其對摩擦學性能的影響」.潤滑與密封,第134卷,第12期,第95-97頁,2009年2月
[3]Hamilton, D. B., Walowit, J. A., and Allen, C. M., “A Theory of Lubrication by Microirregularities,”Transactions of the American Society of Me-chanical Engineers, 1966, J. Basic Eng., 88, pp. 177–185.
[4]A.Rone, I.Etsion and Y.Kligerman, “Friction-Reducing Surface-Texturngm in Reciprocating Auto motive Components”,2001, Tribology Transactions, Vol. 44,3,359-366.
[5]I. Etsion and G. Halperin, “A Laster Surface Textured Hydrostatic Meshanical Steal ”,2002, Tribology Transactions., 44, pp 403-434 .
[6]Y. Feldman , Y . Kligerman , I . Etsion, Habe . “The Validity of the Reynolds Equation in Modeling Hydrostatic Effects in Gas Lubricated Textured Parallel Surfaces”, ASME Journal of Tribology, Vol. 128 , April 2006
[7]Roberto Ausas, Patrick Ragot, Jorge Leiva, Mohammed Jai, Guy Bayada, Gustavo C. Buscaglia, “The Impact of the Cavitation Model in the Analysis of Microtextured Lubricated Journal Bearings. Journal of Tribology”, Vol. 129, pp. 868-974, October 2007.
[8]Samuel Cupillard,Michel J. Cervantes,Sergei Glavatskih, “Pressure Buildup Mechanism in a Textured Inlet of a Hydrodynamic Contact Journal of Tribology”, Vol. 130 , April 2008.
[9]裴世源等學者,「多尺度表面織構流體潤滑問題的快速求解方法」,西安交通大學學報,第45卷,第5期,2011年5月
[10]Sarang Naravan Kortikar. “Fabrication and Characterization of Deterministic Micro asperities on Thrust Surface”[D].University of Kentucky,2004.
[11]Xiaolei Wang,and Koji Kato, “Improving the anti-seizure ability of SiC seal in water with RIE texturing”,Tribology Letters, Vol.14,No.4:275-280, May 2003.
[12]G. RYK,Y. KLIGERMAN, I. ETSION,“Experimental Investigation of Laser Surface Texturing for Reciprocating Automotive Component”, TRIBOLOGY TRANSACTIONS. PP. 444-449, 2002.
[13]Manabu Wakuda,“Effect of surface texturing on friction reduction between ceramicand steel materials under lubricated sliding contact”,Wear 254 ,pp. 356–363 ,2003.
[14]Xiaolei Wang, Koji Kato, Koashi Adachi, Kohji Aizawa.“The effect of laster texturing of SiC surface on the critical load for the transition of water lubrication mode from hydrodynamic to mixed”,Tribology International ,34,703-711,2001.
[15]I. Etsion G. Halperin, V. Brizmer and Y. Kligerman,“Investigation of LST parallel thrust bearing”, Tribology Letters, Vol.17,pp.295-300, August 2004.
[16] EtsionI,“Improving tribological performance of mechanical components by laser surface texturing”, Tribology Letters, pp. 733-737, 2004.
[17]L.S. Stephens, “Deterministic micro asperities on bearings and seals using a modified LIGA process", Journal of Engineering for Gas Turbines and power 126 , pp. 147, 2005.
[18]Kovalchenko A, Ajayi O, Erdemir A, “The effect of laser surface texturing on transitions in lubrication regimes during unidirectional sliding contact", Tribology International, 38, pp. 219-225, 2005.
[19]Schreck S, Zum Gahr K H, “Laser assisted structuring of ceramic and steel surfaces for improving tribological properties " , Applied Surface Science, no. 247, pp. 616- 622, 2005.
[20]徐澤志、曹智強,「人工關節墊片表面特徵的磨耗分析」,元智大學機械工程研究所,碩士論文,2005年
[21]徐澤志、賴仁豪,「人工關節墊片之液壓薄膜分析與研究」,元智大學機械工程研究所,碩士論文,2005年
[22]宋起飛等,「仿生非光滑表面鑄鐵材料的常溫摩擦磨損性能」,摩擦學學, 第26卷,第1期,第24-26頁,2006年
[23]I. Etsion , E. Sher, “Improving Fuel Efficiency with Laster Surface Textured Piston Rings ” Tribology International., 4, pp 542-547, April 2008.
[24]A. Borghi, E. Gualtieri, D. Marchetto, L. Moretti, S. Valeri, “Tribological effects of surface texturing on nitriding steel for high-performance engine applications”,Wear 265 , pp. 1046–1051, April 2008.
[25]H.L. Costa, I.M. Hutchings,“Effects of die surface patterning on lubrication in strip drawing”,Journal of materials processing technology 209, pp. 1175–1180, 2009.
[26]Xiaolei Wang ,“A novel surface texture for magnetic fluid lubrication” Surface &; Coatings Technology 204 ,pp. 433–439, 2009.
[27]Jianliang Li, “Effect of surface laser texture on friction properties of nickel-based composite”, Tribology International 43, pp. 1193–1199 , January 2010.
[28]徐澤志、姚佑誠,「表面織構對磨潤性能的理論於實驗研究」,元智大學機械工程研究所,碩士論文,2011年
[29]彭旭東等學者「不同型面微孔對雷射加工多孔端面機械密 封性能的影響」,摩擦學學報,第26卷,第4期, 第367- 371頁,2006年6月
[30]Ramin Rahmani, Ayoub Shirvani, and Hassan Shirvani,“Optimization of Partially Textured Parallel Thrust Bearing with Square-Shaped Mirco-Dimples”,Tribology Transaction, 50, 401-406, 2007.
[31]Chenbo Ma,and, Hua Zhu“An optimum design model for textured surface with elliptical-shape dimples under hydrodynamic lubrication, Tribology International 44, PP. 987-995, March 2011.
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