汽車局部結構強度之有限元素分析

基於安全考量，汽車結構強度均需通過測試，為了減少測試次數及縮短開發時程，國際各大車廠均有採用電腦輔助工程(Computer-Aided Engineering，CAE)分析技術從事汽車結構強度設計。本論文即是建立以CAE進行汽車局部結構強度分析之分析技術。在研究方法上，選定引擎蓋及散熱器支架為研究載具，以有限元素軟體LS-DYNA作為分析工具，進行汽車局部結構CAE分析技術之建立。對於有限元素模型之建立方法，針對CAD (Computer-Aided Design)圖檔與CAE的轉換問題，網格資料建立時元素大小的考量，各個零件間的組裝方式，以及引擎蓋轉軸機構與引擎蓋卡勾鎖扣機構的模擬模型建立方式提出說明。模擬分析方面，說明初始穿透問題會造成應力上升的不合理現象，零能模式造成的影響及控制方法，以及如何適當使用質量比例因子來加快模擬運算速度。最後利用所建立之有限元素模型，進行引擎蓋自由落下撞擊散熱器支架之受力分析。本論文之研究成果可提供進行CAE汽車結構分析時之參考。

關鍵字

電腦輔助工程(CAE) ；汽車局部結構強度分析；初始穿透；沙漏控制；質量比例因子

並列摘要

The structural strength of automobiles must pass through tests due to safety concern. In order to reduce the time of tests and shorten the developing period, automakers have decided to adopt the CAE (Computer-Aided Engineering) technology to analyze the strength of automobiles. This paper analyzes the strength of automotive sub-structures with the assistance of CAE technology. Using the finite element code, LS-DYNA, the analysis technique for the engine hood and radiator support frame has been built. In regard to the method for building finite element model of automobiles, including the weak convertibility between CAD (Computer-Aided Design) and CAE files, the selection of mesh size, the assembly of parts, the hinge mechanism of engine hoods, and the lock-striker model. This paper also discusses about the influence of initial penetration, usage of hourglass control and mass scaling. Eventually, using the built finite element model, the free fall of the engine hood has been analyzed.

並列關鍵字

CAE ； structural strength of automobiles ； initial penetration ； hourglass control ； mass scaling

參考文獻

1.E. Nalepa, “Crash-worthiness Simulation of the Opel Vectra Using the Explicit Finite Element Method”, International Journal of Vehicle Design, Vol. 11, No. 2, 1990.

2.J. G. Thacker, S. W. Reagan, J. A. Pellettiere, W. D. Pilkey, J. R. Crandall and E. M. Sieveka, “Experiences During Development of a Dynamic Crash Response Automobile Model”, Finite Element In Analysis and Design, Vol. 30, pp. 279-295, 1998.

3.S. W. Kirkpatrick, “Development and Validation of High Fidelity Vehicle Crash Simulation Models”, SAE Paper No. 2000-01-0627, 2000.

4.M. G. Jesus, C.-D. Kan and N. E. Bedewl, “Versatility and Limitations of a Fully Detailed Finite Element Model of a 1997 Dodge Grand Caravan for Crashworthiness Applications”, SAE Paper No. 2000-01-0629, 2000.

5.Z. Q. Cheng, J. G. Thacker, W. D. Pilkey, W. T. Hollowell, S. W. Reagan and E. M. Sieveka, “Experiences in Reverse-Engineering of a Finite Element Automobile Crash Model”, Finite Element In Analysis and Design, Vol. 37, pp. 843-860, 2001.

被引用紀錄

Lee, J. W. (2010). 低地板電動大客車底盤之結構分析與最佳化設計 [master's thesis, National Taiwan University]. Airiti Library. https://doi.org/10.6342/NTU.2010.02083

施宗宏（2008）。鋁輪圈撞擊測試之有限元素分析〔碩士論文，國立臺灣大學〕。華藝線上圖書館。https://doi.org/10.6342/NTU.2008.02835

洪廷芳（2006）。汽車引擎蓋急閉撞擊之動態有限元素分析〔碩士論文，國立臺灣大學〕。華藝線上圖書館。https://doi.org/10.6342/NTU.2006.00930

劉敏奇（2009）。應用電腦輔助研發流程於汽車鈑金模具開發之研究〔碩士論文，朝陽科技大學〕。華藝線上圖書館。https://www.airitilibrary.com/Article/Detail?DocID=U0078-1111200915521774

楊遠誠（2011）。殘障電動車之系統動態模擬與耐久性分析〔碩士論文，國立中央大學〕。華藝線上圖書館。https://www.airitilibrary.com/Article/Detail?DocID=U0031-1903201314425981

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汽車局部結構強度之有限元素分析

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