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研究生:葉瑞嘉
研究生(外文):Ruei-jia Ye
論文名稱:發展實驗與數值分析的方法以評估運動鞋 黏膠層特性之研究
論文名稱(外文):Development of Experimental and Numerical Methods to evaluate Adhesive Characteristics of Sport Shoe
指導教授:劉德騏
指導教授(外文):D. S. Liu
口試委員:黃以文楊智媖鍾卓良
口試委員(外文):Y. W. HwangEileen C.-Y. YangCho-Liang Chung
口試日期:中華民國100年7月14日
學位類別:碩士
校院名稱:國立中正大學
系所名稱:機械工程學系暨研究所
學門:工程學門
學類:機械工程學類
論文種類:學術論文
論文出版年:2011
畢業學年度:99
語文別:中文
論文頁數:84
中文關鍵詞:運動鞋黏著劑黏著力疲勞破壞單邊搭接測試拉拔測試有限元素法
外文關鍵詞:sport shoecohesiveadhesivefatiguesingle lab joint testtensile testfinite element
相關次數:
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  • 下載下載:65
  • 收藏至我的研究室書目清單書目收藏:1
本研究建立一套評估鞋子壽命的方法,應用有限元素法搭配應力疲勞壽命曲線圖評估鞋體壽命。分為實驗與研究兩大部分,實驗的部分內容包括正向實驗、剪向實驗以及疲勞實驗,並從實驗結果討論不同破壞模式之黏著強度,然後由單邊搭接方式取得應力疲勞壽命曲線圖。
建立3D有限模擬分析法模擬球鞋受彎曲之狀態並且觀察應力集 中區以及應力分佈狀況。最後依照模擬結果比對應力壽命曲線圖並且評估球鞋之壽命。

In this paper develops a methodology to evaluate the lifetime of the shoes with different types of colloidal structures. This study consists of two major parts;there are experiment and simulation, of the experiment include tensile test, shear test and fatigue test. The results from the tests could investigate the failure modes of adhesive strength. The S-N curves have been explored by fatigue test .The three dimensional finite element models has been used to analyze bending state of shoes. Observe the position of stress distribution and the location of the maximum stresses, this result could lead to find out the lifetime with S-N curve.
目錄
摘要..............................I
目錄..............................V
表目錄...........................VII
圖目錄............................IX
第一章 緒論........................1
1-1 前言..........................1
1-2 研究動機與目的..................1
1-3 文獻回顧.......................2
1-4 研究方法......................12
第二章 靜態拉伸實驗.................15
2-1 實驗儀器......................16
2-2 試片製作......................17
2-2-1 Cross-tension(CT)試片尺寸...19
2-2-2 Tensile-shear (TS)試片尺寸..20
2-3 靜態拉伸實驗結果(油性膠).........23
2-3-1 破壞模式與黏著強度............23
2-3-2 Tensile test 實驗結果.......25
2-3-3 Shear test 實驗結果.........31
2-4 靜態拉伸實驗結果(水性膠).........37
第三章 單邊搭接疲勞實驗..............41
3-2 定義疲勞負載...................42
3-3定義疲勞破壞與實驗頻率............42
3-4 單邊搭接動態疲勞實驗結果.........45
第四章 有限元素模型建立與模擬.........49
4-1 膠合元素材料特性................49
4-2 驗證膠體參數...................54
4-3 膠合元素設定...................58
4-4 邊界條件與材料性質..............62
4-5 球鞋模擬分析結果................66
4-6 評估球鞋壽命...................70
第五章 結論與未來方向................77
5-1 結論..........................77
5-2 未來研究方向...................79
參考文獻..........................81

[1] Chia-Wei Chang and Jiunn-Der Liao ‘’Nano-indentation at the surface contact level: applying a harmonic frequency formeasuring contact stiffness of self-assembled monolayers adsorbed on Au” Nanotechnology 19 (2008) 315703 (6pp).
[2] S. Voyutskii, V. L. Vakula, ‘’The role of diffusion phenomena in polymer-to-polymer adhesion”, Journal of Applied Polymer Science,Volume 7, Issue 2, pages 475–491.
[3] Derjaguin, B. V., L. D. Landau, ‘’Theory of Stability of Strong Charge Lyophobioc Sols and of the Adhesion of Strong Charged Particles in Solutions of Electrolytes”, Acta Physicochimca URSS, 14, pp. 633-662, 1941.
[4] Victor Munoz, Eric R. Henry, James Hofrichter and William A. Eaton. ‘’A Statistical Mechanical Model for β -hairpin KineticsAcad”. Sci.USA 1998, 95, 5872-5879.
[5] 郭金昇‘’碳纖維複合材與磚造砌體之黏著強度研究(The Bond Strength between Carbon Fiber Reinforced Polymer(CFRP) Composites and Brick Masonry)’’ 中華民國九十二年
[6] Stephan, Alex Gladkov and Avram Bar-Cohen‘’Parametric Dependence of Fatigue of Electronic Adhesives ‘’IEEE .Transactions On Components And Packaging Technology, Vol. 22, No. 2, June 1999.
[7] A.MFerreiraa,P.NReisb,J.D.MCostaa,M.O.WRichardsonc‘’Fatigue behavior of composite adhesive lap joints’’ Composites Science and Technology, Volume 62, Issues 10-11, August 2002, Pages 1373-1379.
[8] M. Vural , A. Akkus, B. Ery¨urek ‘’Effect of welding nugget diameteron the fatigue strength of the resistance spot welded joints of different steelsheets’’ Volume 176, Issues 1-3, 6 June 2006, Pages 127-132.
[9] G. Mukhopadhyaya, S. Bhattacharyab, K.K. Raya, ‘’Strength assessment of spot-welded sheets of interstitial free steels’’ Journal of Materials Processing Technology, Volume 209, Issue 4, 19 February 2009, Pages 1995-2007.
[10] C. Andersson, J. Liu‘’Effect of corrosion on the low cycle fatigue behavior of Sn–4.0Ag–0.5Cu lead-free solder joints’’ International Journal of Fatigue, Volume 30, Issue 5, May 2008, Pages 917-930.
[11] Yi-Ming Jen , Chih-Wei Ko ‘’Evaluation of fatigue life of adhesively bonded aluminum single-lap joints using interfacial parameters‘’International Journal of fatigue Volume 32, Issue 2, February 2010, Pages 330-340.
[12] A.M. Pereiraa, J.M. Ferreirab, F.V. Antunesb, P.J. Bartoloa‘’Analysis of manufacturing parameters on the shear strength of aluminium adhesive single-lap joints’’ Journal of Materials Processing Technology, Volume 210, Issue 4, 1 March 2010, Pages 610-617.
[13] Sébastien Joannès, Jacques Renard, Vladimir Gantchenko ‘’The role of talc particles in a structural adhesive submitted to fatigue loadings’’ International Journal of Fatigue, Volume 32, Issue 1, January 2010, Pages 66-71.
[14] Xinran (Sharon) Xiao, Peter H. Foss, Jessica A. Schroeder‘’Stiffness prediction of the double lap shear joint’’International Journal of Adhesion & Adhesives 13 October 2003.
[15] M. Venkateswara, K. Mohana, V. Rama Chandra,V.Bala Krishna, and V. Sridhara ‘’Analysis of Adhesively Bonded Single Lap Joint in Laminated Frp Composites Subjected to Transverse Load ’’ International Journal of Mechanics and Solids, Volume 3 Number 1 (2008) pp. 75–86.
[16] K.B. Katnam, J.P. Sargent, A.D. Crocombe, H. Khoramishad, I.A. Ashcroft ‘’Characterisation of moisture-dependent cohesive zone properties for adhesively bonded joints’’ Engineering Fracture Mechanics, Volume 77, Issue 16, November 2010, Pages 3105-3119.
[17] H. Khoramishad, A.D. Crocombe, K.B. Katnam, I.A. Ashcroft ‘’Predicting fatigue damage in adhesively bonded joints using a cohesive zone model’’ International Journal of Fatigue, Volume 32, Issue 7, July 2010, Pages 1146-1158.
[18] ‘’Standard Test Method for Strength Properties of Adhesives in Shear by Tension Loading of Single-Lap-Joint Laminated Assemblies1’’ASTM D 3165.
[19] ‘’Standard Test Method for Flatwise Tensile Strength of Sandwich Constructions1’’ASTM C 297.
[20] 任貽明‘’溫濕度效應對單邊搭接黏著劑接合件靜態及疲勞強度影響之研究’’中華大學機械工程學系碩士班,九十八年
[21] P.R. Underhill, D.L. DuQuesnay ‘’ The dependence of the fatigue life of adhesive joints on surface preparation’’ International Journal of Adhesion and adhesive, Volume 26, Issues 1-2, February-April 2006, Pages 62-66.
[22] Theodore Nicholas‘’ High cycle fatigue: a mechanics of materials perspective’’.
[23] H. D. Solomon,Gary R. Halford,L. R. Kaisand,Brian N. Leis‘’ Low Cycle Fatigue’’.
[24] Taeko Ando,Mitsuhiro Shikida,Kazuo Sato‘’ Tensile-mode fatigue testing of silicon films as structural materials for MEMS’’ Sensors and Actuators A: Physical, Volume 93, Issue 1, 25 August 2001, Pages 70-75.
[25] By Daan Hein Alsem, Olivier N. Pierron, Eric A. Stach, Christopher L. Muhlstein and Robert O. Ritchie‘’Mechanisms for Fatigue of Micron-Scale Silicon Structural Films’’ADVANCED ENGINEERING MATERIALS 2007, 9, No. 1–2.
[26] 趙永清‘’電子構裝元件可靠度與電氣特性之量測與分析’’ 國立中正大學機械工程研究所博士論文,2003
[27] Sreeramesh Kalluri,Peter J. Bonacuse‘’ Multiaxial fatigue and deformation: testing and prediction’’ ASTM Stock Numbe: STP138.

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