This study highlights the significant evolution of reverse engineering in recent decades, allowing improvements in the construction of software and mechanical elements. The importance of designers and engineers having a detailed understanding of the products they develop is emphasized to reduce errors during construction. Technologies such as FDM and PolyJet are evaluated, using materials such as Acrylonitrile, ASA, and Vero White for manufacturing specimens according to regulations such as ASTM D638-14. The relevance of 3D printing in reverse engineering and the importance of mechanical tests to validate the quality and resistance of manufactured components, such as the acceleration body of the Chevrolet Corsa, are highlighted.

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Application of Reverse Engineering and Additive Manufacturing in the Construction of Mechanical Components Through 3D Printing

  • Denis Ugeño,
  • Pamela Villarreal,
  • Víctor López,
  • Cristian Guachamin,
  • Jhon Jara,
  • Jorge Ramos

摘要

This study highlights the significant evolution of reverse engineering in recent decades, allowing improvements in the construction of software and mechanical elements. The importance of designers and engineers having a detailed understanding of the products they develop is emphasized to reduce errors during construction. Technologies such as FDM and PolyJet are evaluated, using materials such as Acrylonitrile, ASA, and Vero White for manufacturing specimens according to regulations such as ASTM D638-14. The relevance of 3D printing in reverse engineering and the importance of mechanical tests to validate the quality and resistance of manufactured components, such as the acceleration body of the Chevrolet Corsa, are highlighted.