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

NCUIR > Engineering College > Graduate Institute of Mechanical Engineering > Electronic Thesis & Dissertation > Item 987654321/81647

Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/81647

Title:	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
Authors:	楊天宇;Yang, Tien-Yu
Contributors:	機械工程學系
Keywords:	雙錐輥旋轉鍛造;螺旋傘形齒輪;有限元素分析
Date:	2019-07-29
Issue Date:	2019-09-03 16:35:11 (UTC+8)
Publisher:	國立中央大學
Abstract:	本文透過有限元素軟體Deform-3D進行雙錐輥旋轉鍛造螺旋傘形齒輪模擬分析，探討加工參數以及胚料幾何參數對鍛造最大成形力以及填充率的影響，並找出最合適之加工條件，達到提升填充率及降低成形力的目的。本文設計之旋轉鍛造加工參數包含下模具每轉進給量以及上模自轉速度；胚料幾何參數包含胚料底部傾斜角及胚料下段內徑。實驗設計採用Box-Behnken四因子三水準設計，以建構二階反應曲面。本文共建立25組實驗點進行模擬分析，其中包含一組中心點實驗，再使用統計軟體Minitab對模擬結果進行回歸分析，建立最大成形力以及填充率之預測模型，進而探討各因子對品質特性的影響，並找出最佳化條件。以有限元素模擬結果對本文所建構之預測模型進行檢驗，其結果顯示預測模型具有一定的準確度。;An FEM model of rotary forging with double symmetry rolls of a spiral bevel gear is developed under the DEFORM-3D software. To observe the influence of work-piece geometry parameters and rotary forging process parameters to the forging maximum load and die-filling rate. Also, intend to find the rotary forging condition for optimum design. The four factors in the design include the work-piece geometry parameters, such as bottom inclination angle ß and bottom diameter D, and rotary forging process parameters, such as rotation of the upper die n_2 and feed amount of per revolution S. The experiment adopts 25 groups of analogs with the Box-Behnken design. Using the Minitab software to do the regression analysis and develop the prediction equations. Obtaining the optimum design of the forging maximum load and die-filling rate by using response surface methodology. Through the results of FEM simulations to verify the prediction equations with considerable accuracy.
Appears in Collections:	[Graduate Institute of Mechanical Engineering] Electronic Thesis & Dissertation

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