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• Rediseño de pieza de automoción en SMC mediante optimización topológica

  K. Zulueta, I. Madina, P. Larreategi

  Materiales Compuestos (2024). Vol. 08 - COMUNICACIONES MATCOMP21 (2022) Y MATCOMP23 (2023), (Núm. 6 - Fabricación y Aplicaciones Industriales), 48

  
  

  Abstract

  Lightening vehicles has been and continues to be one of the main objectives of the automotive industry. On one hand, to reduce fuel consumption in internal combustion vehicles, and, on the other hand, to try to maximize the autonomy of electric vehicles. In this aspect, composite polymeric materials, such as Sheet Molding Compound (SMC) materials, play a decisive role; however, their use in structural parts requires appropriate design and simulation techniques. In order to maximize design possibilities, in the conceptualization phases of the product development process, topology optimization tools open many possibilities. Nevertheless, the use of this technique in SMC materials generates certain uncertainties due to the nature of the material. In this context, in this work a metal part has been replaced by a version of it in SMC and topological optimization tools have been used in the conceptual design stage. The possible variants have been analyzed when entering the mechanical data of the material, due to its anisotropic nature, as well as the influence of temperature on them, due to the fact that in the working environment the piece is subjected to 130 ºC. To do this, samples of material have been molded and a mechanical characterization has been carried out to understand the behavior of the material with respect to fiber orientation and temperature. Then, using the PTC Creo design tool, a topological optimization and subsequent adaptation were carried out to improve the processability of the component. The most promising versions have been virtually validated using finite elements with Abaqus software. In conclusion, this work has demonstrated the viability of using topology optimization techniques in the conceptual design of components with SMC materials. Furthermore, in combination with simulation techniques using finite elements, they have proven to be tools that reduce and perfect product development in composite materials.

  Abstract
  Lightening vehicles has been and continues to be one of the main objectives of the automotive industry. On one hand, to reduce fuel consumption in internal combustion vehicles, [...]

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