• Title of article

    Design and Fabrication of a Composite Energy Absorber

  • Author/Authors

    Shalian, Hamidreza Department of Mechanical Engineering - Malek Ashtar University of Technology - Tehran, Iran , Heydari Beni, Mohsen Department of Mechanical Engineering - Malek Ashtar University of Technology - Tehran, Iran , Alaee, Mohammad Hossein Department of Mechanical Engineering - Composite Engineering Research Institute Malek Ashtar University of Technology - Tehran, Iran , Eskandari Jam, Jafar Department of Mechanical Engineering - Composite Engineering Research Institute Malek Ashtar University of Technology - Tehran, Iran , Eskandari Shahraki, Majid Department of Aerospace Engineering - Ferdowsi University of Mashhad - Mashhad, Iran , Asiaban, Naser Department of Aerospace Engineering - Ferdowsi University of Mashhad - Mashhad, Iran

  • Pages
    12
  • From page
    1
  • To page
    12
  • Abstract
    In this paper, the quasi-static test and the damage of the thin-walled composite cylinder were numerically simulated using ABAQUS. Then, a comparison was made between the results of this simulation and those obtained from experimental studies followed by their validation. In the next step, several parameters affecting the energy absorption rate including outer diameter-to-cylinder height ratio, thickness-to-outer diameter ratio, and angle of damage initiation mechanism were selected. They were optimized by modelling different states in ABAQUS. The number of tests is reduced by the design of experiments using response surface methodology and the optimal specimen is extracted by this software. Finally, optimum adsorbent is fabricated and tested. Considering enhanced energy absorption, increased mean reaction force, and reduced initial maximum force, the optimal design parameters include the inner diameter-to-cylinder height ratio of 0.2, thickness-to-inner diameter ratio of 0.1, and angle of damage initiation mechanism of 45°.
  • Keywords
    Quasi-Static , Energy Absorber , Crash Box , Composite
  • Journal title
    International Journal of Advanced Design and Manufacturing Technology
  • Serial Year
    2020
  • Record number

    2537083