Die Design Optimization for Connecting Rod Using Simulation Modeling and Taguchi Methodology

Engineering Research Express Pub Date : 2024-08-08 DOI:10.1088/2631-8695/ad6d2b

Siddharth Yadav, S. Gautam, Rajat Upadhyaya, Niranjan Kumar Singh, Kamlesh Kumar Singh, Anurag Namdev

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Abstract

This paper presents a novel approach to optimizing the die design for forging used in connecting rods. The combination of Taguchi (orthogonal L9) and the finite element method (FEM) was employed to achieve this optimization. The main objective of this study was to analyze the impact of design parameters on die-filling and yield improvement. The orthogonal L9 design was generated with three input parameters and one response variable. These input parameters were derived from the design dimensions of the forging tool, specifically flash land, draft, and flash thickness. The response variable was the maximum yield percentage, which was obtained through finite element simulations of the forging processes. By conducting an orthogonal analysis, the relationships between the response variable and the input parameters were established. The simulation results were then used to compare the outcomes of two different designs. It was found that Preform one outperformed the other design, achieving an impressive yield of 88% at a forging load of 1.37 × 104 N, with complete die filling observed.

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利用仿真建模和田口方法优化连杆的模具设计

本文介绍了一种优化连杆锻造模具设计的新方法。田口方法（正交 L9）和有限元方法（FEM）相结合，实现了这一优化。这项研究的主要目的是分析设计参数对模具填充和产量提高的影响。正交 L9 设计有三个输入参数和一个响应变量。这些输入参数来自锻造工具的设计尺寸，特别是飞边、牵伸和飞边厚度。响应变量是最大屈服百分比，它是通过锻造过程的有限元模拟获得的。通过正交分析，确定了响应变量与输入参数之间的关系。然后利用模拟结果来比较两种不同设计的结果。结果发现，预型件一的性能优于另一种设计，在锻造载荷为 1.37 × 104 N 时，成品率达到了 88%，并观察到模具完全填充。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Engineering Research Express

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