Billet Design Optimization of Helical Gears Precision Forging Based on Response Surface Method and FEM Simulation

机译：基于响应面法和FEM模拟的螺旋齿轮精密锻造的方坯设计优化

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Billet is designed by utilizing the flow relief-hole principle to improve the dimensional accuracy during the precision cold forging of helical gear. An optimization method for the initial diameter of the relief-hole was proposed based on the finite element method(FEM) and response surface method (RSM). The degree of uniformity of effective strain in helical gear precision forging was considered as the optimal objective. The empirical equation built through Response Surface Method shows the relationship between the initial diameter of the relief-hole and the degree of uniformity of effective strain. The optimal diameter is obtained through gold section method based on the empirical equation. The optimal result has been verified by using the commercial software DEFORM 3D.

机译：坯料是通过利用流量浮雕孔原理来改善螺旋齿轮精密冷锻的尺寸精度来设计的。提出了一种基于有限元方法（FEM）和响应表面方法（RSM）的释放孔初始直径的优化方法。螺旋齿轮精密锻造中有效应变的均匀程度被认为是最佳目标。通过响应面方法构建的经验方程显示了释放孔的初始直径与有效应变的均匀性之间的关系。通过基于经验方程的金部分方法获得最佳直径。通过使用商业软件变形3D验证了最佳结果。

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《International Conference on Manufacturing Science and Engineering》|2011年||共5页
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作者
Wei Feng; Yunfeng Mei; Kang Yan; Tian Zou; Xinlei Zhang;
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原文格式 PDF
正文语种
中图分类 TH16-53;
关键词
Helical Gears Precision Forging; Optimization Design; Response Surface Method; FEM Simulation; Relief-Hole;

机译：螺旋齿轮精密锻造;优化设计;响应面法;FEM模拟;浮雕孔;

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专利

1. Prediction of maximum forming load and billet dimensions using an abductive network and finite element method simulation of a near net-shaped helical gear forging [J] . T S Yang Proceedings of the Institution of Mechanical Engineers . 2009,第B1期

机译：使用外网和近似网状斜齿轮锻件的有限元模拟预测最大成形载荷和坯料尺寸
2. Prediction of maximum forming load and billet dimensions using an abductive network and finite element method simulation of a near net-shaped helical gear forging [J] . T. S. Yang Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2009,第b3期

机译：用外网和近似网状斜齿轮锻件的有限元模拟预测最大成形载荷和坯料尺寸
3. Multi-objective optimization of process parameters for the helical gear precision forging by using Taguchi method [J] . Wei Feng, Lin Hua Journal of Mechanical Science and Technology . 2011,第6期

机译：田口法对斜齿轮精锻工艺参数的多目标优化
4. Billet Design Optimization of Helical Gears Precision Forging Based on Response Surface Method and FEM Simulation [C] . Wei Feng, Yunfeng Mei, Kang Yan, International Conference on Manufacturing Science and Engineering . 2011

机译：基于响应面法和FEM模拟的螺旋齿轮精密锻造的方坯设计优化
5. Combining multivariate adaptive regression splines with a response surface methodology for simulation-based design optimization. [D] . Crino, Scott T. 2006

机译：将多元自适应回归样条曲线与响应面方法相结合，可进行基于仿真的设计优化。
6. Multi-response optimization of Artemia hatching process using split-split-plot design based response surface methodology [O] . V. V. Arun, Neelam Saharan, V. Ramasubramanian, -1

机译：基于分割图设计的响应面方法对卤虫孵化过程的多响应优化
7. Multiobjective Optimization of Precision Forging Process Parameters Based on Response Surface Method [O] . Fayuan Zhu, Zhaohui Wang, Mi Lv 2015

机译：基于响应面法的精密锻造工艺参数多目标优化
8. Reliability Sensitivity Analysis and Design Optimization of Composite Structures Based on Response Surface Methodology [R] . Rais-Rohani, Masoud 2003

机译：基于响应面法的复合材料结构可靠性灵敏度分析与优化设计

Billet Design Optimization of Helical Gears Precision Forging Based on Response Surface Method and FEM Simulation

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