Genetic algorithms combined with the finite elements method as an efficient methodology for the design of tapered roller bearings

  1. Lostado-Lorza, R. 1
  2. Sanz-García, A. 1
  3. González-Marcos, A. 1
  4. Pernía-Espinoza, A. 1
  1. 1 Universidad de La Rioja
    info

    Universidad de La Rioja

    Logroño, España

    ROR https://ror.org/0553yr311

Buch:
Soft Computing Models in Industrial and Environmental Applications, 6th International Conference SOCO 2011 (Advances in Intelligent and Soft Computing, 87)

ISBN: 9783642196447

Datum der Publikation: 2011

Ausgabe: 87

Seiten: 243-252

Art: Buch-Kapitel

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DOI: 10.1007/978-3-642-19644-7_26 SCOPUS: 2-s2.0-80052922587 WoS: WOS:000290975700026 GOOGLE SCHOLAR

Zusammenfassung

This research presents an efficient hybrid approach based on soft computing techniques and the finite element method for the design of mechanical systems. The use of non-linear finite element models to design mechanical systems provides solutions that are consistent with experimental results; but this use is often limited in practice by a high computational cost. In order to reduce this cost, we propose a linear finite element model that replaces the non-linear elements of the mechanical system with beam and plate elements of equivalent stiffness that are adjusted by means of genetic algorithms. Thus, the adjusted linear model behaves in the same way as the non-linear model, but with a much lower computational cost, which would allow to redesign any mechanical system in a more efficient and faster way. A case study demonstrates the validity of this methodology as applied to the design of a tapered roller bearing. © 2011 Springer-Verlag Berlin Heidelberg.