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姓名	李健彰(Jian-Zheng Lee)  查詢紙本館藏	畢業系所	機械工程學系
論文名稱	引伸成形加工問題之有限元素分析
相關論文	★ 中尺寸LED背光模組之實驗研究 ★ 利用有限元素法與反應曲面法探討 金屬成型問題之最佳化設計-行星路徑旋轉鍛造傘齒輪為例 ★ 以反應曲面法進行行動電話卡勾之最佳化設計 ★ 以微分式內涵塑性理論分析材料受軸向循環負載之塑性行為 ★ A1070在累進式背擠製下的機械性質與微結構之研究 ★ 超音波輔助沖壓加工之應用-剪切、引伸與等通彎角擠製 ★ 應用多體動力學於具循環氣體負載之迴轉式壓縮機振動預測模型建立 ★ 以有限元素法與反應曲面法分析螺旋傘齒輪之旋轉鍛造最佳化設計 ★ 超音波振動輔助鋁合金6061及低碳鋼S15C拉伸試驗之研究 ★ 旋轉鍛造螺旋齒輪製程分析 ★ 等通道扭轉彎角擠製之有限元素法及反應曲面法分析 ★ 以有限元素法與反應曲面法分析增量式板金成形 ★ 以有限元素法與反應曲面法分析螺旋傘齒輪之雙錐輥旋轉鍛造最佳化設計 ★ 以有限元素法與反應曲面法分析兩點增量成形 ★ 應用流函數法分析軸對稱熱擠製加工問題 ★ 非對稱壓延加工問題之有限元素法分析
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關鍵字(中)	★ 引伸 ★ 有限元素	關鍵字(英)
論文目次	目 錄頁碼摘要Ⅰ目錄Ⅱ圖表說明IV符號說明Ⅷ第一章 緒論1-1 前言11-2 文獻回顧21-3 研究動機與目的3第二章 基本理論2-1 彈塑性有限元素基本觀念52-1-1 有限元素求解程序52-1-2 彈塑性材料特性矩陣62-2 Update Lagrangian Formulation (ULF)理論102-3 接觸問題之處理112-3-1 接觸之定義122-3-2 接觸面摩擦效應之處理122-3-3 接觸之處理程序13第三章 實驗方法及有限元素模擬3-1 實驗方法153-1-1 引伸模具及胚料153-1-2 網格蝕刻153-1-3 引伸試驗153-1-4 材料拉伸試驗163-1-5 應變量測及分析173-2 有限元素分析173-2-1 基本假設183-2-2 引伸模型193-2-3 接觸條件193-2-4 收斂檢查20第四章 結果與討論4-1 實驗驗證214-2 母模圓角(Rd)之影響234-3 間隙之影響244-4 料片外形之影響244-5 壓料板力的影響25第五章 結論與建議5-1 結論265-2 建議27附錄65參考文獻70
參考文獻	1. Bathe, “Finite Element Procedures”, Prentice-Hall,Inc.,1996 2. Ceretti E., Giardini C. and Maccarini G., “Theoretical and Experim-ental Analysis of non-Axisymmetrical Deep Drawing”, Journal of Materials Processing Technology, Vol.54, pp375~384,1995. 3. Choi T. H. and Huh H., “Sheet metal forming analysis of planar anisotropic materials by a modified membrane finite element method with bending effect”, Journal of Materials Processing Technology v.89 n.1 pt.0 pp.58-64, 1999. 3. Daw-Kwei Leu, “The limiting drawing ratio for plastic instability of 4. the cup-drawing process”, Journal of Materials Processing Technology v.86 pp.168-176, 1999. 5. Designation: E8M-91, Standard Test Methods for Tension Testing of Metallic Materials [Metric], p.150-168. 6. “Element Library”, MARC Analysis Research Corporation. Volume B. Version K7.pp3.345~3-350 7. Hibbitt H.D., Marcal P.V and Rice J.R., “A Finite Element Formulation for problems of large strain and large displacement”, Int. J. Soilds Struct., Vol.6 pp.1069-1086, 1970 8. Jiang Lei, Chernuka Michael W. and Pegg Neil G. “A co-rotational, updated Lagrangian Formulation for Geometrically Nonlinear Finite Element Analysis of Shell Structures”, Finite Element in Analysis and Design, Vol.18, pp.129-140. 1994. 9. Jung D. W. and Yang D. Y., “Step-wise combined implicit-explicit finite-element simulation of autobody stamping processes” , Journal of Materials Processing Technology v.83 n.1 pt.0 pp.245-260, 1998. 10. Kim Sangdo, Minho Park, Sangjjin Kim and Daegyo Seo, “Blank Design and Formability for non-Circular Deep Drawing Process by Finite-Element Method”, Journal of Materials Processing Technology, vol.75, pp.94-99, 1998. 11. Lei Liping and Kang Beom-Soo, “Finite Element Analysis and Design in Stainless Steel Sheet Forming and its Experimental Comparison”, The 18th MARC Users’ Meeting, pp.73-81, 1998 12. Majlessi S.A and Lee D., ”Deep Drawing of Square-Shapes Sheet Metal Parts, Part 1:Finite Element Analysis”, Transactions of the ASME Journal of Engineering for Industry, Vol.115, pp.102-109,1993 13. Mcmeeking R.M. and Rice J.R., “Finite Element Formulation for Problem of Large elastic-plastic deformation”, Int. J. Soilds Struct. , Vol.11, pp.601-616. 14. “Mentat Command Reference”, MARC Analysis Research Corporation. Version 3.1, pp3.345~3-350 15. Owen D.R.J. Hinton E. “Finite Element in Plasticity：Theory and Practice”,1985. 16. Shim H.B. and Yang D.Y., “Elastic-Plastic Finite Element Analysis of Deep Drawing Process by Membrane and Shell Elements”, Journal of Manufacturing Science and Engineering, Vol.119,pp.341-349,1997. 17. Tetsuo Naka and Fusahito Yoshida, “Deep drawability of type 5083 aluminium-magnesium alloy sheet under various conditions of temperature and forming speed” , Journal of Materials Processing Technology v.89 n.1 pt.0 pp.19-23, 1999. 18. “Theory and user information”, MARC Analysis Research Corporation. Volume A. Version K7. 19. Toshihiko Kuwabara, Kouji Akiyama and Yuuji Nakayama, “Square Shell Drawing Characteristics of Aluminum Alloy Sheet A5182-O”, Journal of Materials Process Technology, Vol.38, pp737~749, 1993. 20. Wang N.M. and Tang S.C., “Analysis of Bending Effects in Sheet Forming Operations”, Int. J. for Num. Meth. in Engng., Vol.25, pp253~267, 1998. 21. Yang D.Y., Chung W.J. and Shim H.B., “Rigid –Plastic Finite Element Analysis of Sheet Metal Forming Process with Initial Guess Generation” , International Journal of Mechanical Sciences, Vol.32, No.8. pp.687-708, 1990. 22. Yasuo Marumo, Hiroyuki Saiki and Toshihiko Mori, “Combined effects of strain hardening characteristics and tool geometry on the deepdrawability of square aluminum cups”, Journal of Materials Processing Technology v.89 n.1 pt.0 pp.30-36, 1999. 23 莊智凱, 方杯引伸成形之下料板件外形設計, 國立台灣大學工程 學刊,第六十八期,121-136 頁, 民國八十五年十月。 24. 張仕冬, 三維面對稱擠製之實驗研究, 碩士論文, 國立中央大學 機械工程研究所, 1998。 25. 何信森, 方杯引伸成形之彈塑性有限元素分析, 中華民國力學學 會第廿三屆全國力學會議論文集(三), 187-194 頁,民國八十八年。
指導教授	葉維磬(WEI-CHING YEH)	審核日期	2000-7-7
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