Optimization of a Mechanical Part using Finite Element and Taguchi

Authors

  • Leon Loa Pelcastre Department of Mechatronic Engineering, TecNM-TESCo, Coacalco, Mexico
  • Inving Mendoza Paz Department of Mechatronic Engineering, TecNM-TESCo, Coacalco, Mexico
  • Roberto Angel Cortes Avalos Department of Electromechanical Engineering, TecNM-TESCo, Coacalco, Mexico
  • Daniela Pinales Landeros Department of Mechatronic Engineering, TecNM-TESCo, Coacalco, Mexico

Keywords:

finite element, stress, deformation

Abstract

The developed analysis was based on the optimization of a mechanical part. Which will be designed in a CAD software (SolidWorks) that allows to perform simulations (Finite Element) to determine the deformation and stresses when a force is applied to it. Some variables will be changed to identify which is the most optimal simulation and thus obtain the best results, and by the orthogonal arrangement method of Taguchi, a results comparison will be made to determine which is the most optimal model of all the simulations that were obtained so in this way we demonstrate that by making changes to the design we can improve its performance, in order to have the most optimal mechanical part.

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Published

24-09-2023

Issue

Vol. 4 No. 9 (2023)

Section

Articles

License

Copyright (c) 2023 Leon Loa Pelcastre, Inving Mendoza Paz, Roberto Angel Cortes Avalos, Daniela Pinales Landeros

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
L. L. Pelcastre, I. M. Paz, R. A. C. Avalos, and D. P. Landeros, “Optimization of a Mechanical Part using Finite Element and Taguchi”, IJRAMT, vol. 4, no. 9, pp. 21–24, Sep. 2023, Accessed: Feb. 22, 2025. [Online]. Available: https://journals.ijramt.com/index.php/ijramt/article/view/2795