Journal of Bionic Engineering ›› 2020, Vol. 17 ›› Issue (6): 1251-1262.doi: 10.1007/s42235-020-0107-3

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Wear Behavior of a Bio-inspired Bearing for off-center Loads

Delphine Sysaykeo1,2*, Jean-Marc Linares1, Emmanuel Mermoz1,2   

  1. 1. Aix-Marseille Université, CNRS, Centre National de la Recherche Scientifique, ISM, Institut des Sciences du Mouvement, 
    Marseille 13009, France
    2. Advanced concepts and Dynamic systems architecture department, Airbus Helicopters, Aeroport International Marseille Provence, Marignane 13700, France

  • 收稿日期:2020-06-23 修回日期:2020-09-09 接受日期:2020-09-16 出版日期:2020-11-10 发布日期:2020-12-17
  • 通讯作者: Delphine Sysaykeo E-mail:delphine.sysaykeo@etu.univ-amu.fr
  • 作者简介:Delphine Sysaykeo1,2*, Jean-Marc Linares1, Emmanuel Mermoz1,2

Wear Behavior of a Bio-inspired Bearing for off-center Loads

Delphine Sysaykeo1,2*, Jean-Marc Linares1, Emmanuel Mermoz1,2   

  1. 1. Aix-Marseille Université, CNRS, Centre National de la Recherche Scientifique, ISM, Institut des Sciences du Mouvement, 
    Marseille 13009, France
    2. Advanced concepts and Dynamic systems architecture department, Airbus Helicopters, Aeroport International Marseille Provence, Marignane 13700, France

  • Received:2020-06-23 Revised:2020-09-09 Accepted:2020-09-16 Online:2020-11-10 Published:2020-12-17
  • Contact: Delphine Sysaykeo E-mail:delphine.sysaykeo@etu.univ-amu.fr
  • About author:Delphine Sysaykeo1,2*, Jean-Marc Linares1, Emmanuel Mermoz1,2

摘要: Misalignment is one of the most common causes of wear in bush bearings. Design improvements have been proposed by many re-searchers. Unfortunately, it did not efficiently reduce the misalignment. Classic geometrical designs sometimes reach their limits. For this reason, a bio-inspired design is proposed to solve the impediment. In this article, a bio-inspired bearing suited to misalignment was tested and compared to a classical bush bearing. The contact pressures of both bearings were compared with static Finite Element (FE) simulations for off-center load. Due to the complex shape of the involved contact, the performances of both bearings were also studied over time. Their wear behaviors were predicted with a numerical method. The methodologies emplaced to simulate the wear were described in this paper. Particularly, the wear coefficient determination obtained by experimental testing was detailed. The pressure value, the contact zone and the wear depth were compared and discussed. The wear results for the classical bearing are in accordance with the literature. The simulations show a deeper wear on the classical bush bearing than on the bio-inspired bearing. This leads to a longer period of service life for the bio-inspired bearing.

关键词: biologically inspired design, bush bearing, wear, simulation

Abstract: Misalignment is one of the most common causes of wear in bush bearings. Design improvements have been proposed by many re-searchers. Unfortunately, it did not efficiently reduce the misalignment. Classic geometrical designs sometimes reach their limits. For this reason, a bio-inspired design is proposed to solve the impediment. In this article, a bio-inspired bearing suited to misalignment was tested and compared to a classical bush bearing. The contact pressures of both bearings were compared with static Finite Element (FE) simulations for off-center load. Due to the complex shape of the involved contact, the performances of both bearings were also studied over time. Their wear behaviors were predicted with a numerical method. The methodologies emplaced to simulate the wear were described in this paper. Particularly, the wear coefficient determination obtained by experimental testing was detailed. The pressure value, the contact zone and the wear depth were compared and discussed. The wear results for the classical bearing are in accordance with the literature. The simulations show a deeper wear on the classical bush bearing than on the bio-inspired bearing. This leads to a longer period of service life for the bio-inspired bearing.

Key words: biologically inspired design, bush bearing, wear, simulation