• Title of article

    Propagation of Matrix Cracking and Induced Delaminatin in CrossPly Composite Beams Subjected to Bending Loads

  • Author/Authors

    Bahrami ، Mohammad - Tarbiat Modares University , Farrokhabadi ، Amin - Tarbiat Modares University

  • Pages
    6
  • From page
    45
  • To page
    50
  • Abstract
    Due to the mismatch of mechanical properties in composite laminates, propagation of delamination is considered as a severe damage mechanism in beams with various layup configurations. Delamination can be generated due to matrix cracking propagation or it can also be initiated due to the manufacturing process before using composite beams. Using a micromechanics model, this study is aimed to investigate the bending moment required for matrix cracking and induced delamination in crossply composite beams. To that end, a unit cell is selected from the lamina surface in a composite beam containing matrix cracking and delamination. Later, the governing equation of stress and displacement fields are extracted in the unit cell to calculate the strain energy release rate due to the propagation of matrix cracking and induced delamination.  In order to validate this method, the stiffness variations in CarbonEpoxy crossply laminate [90/02]s is examined and the obtained results are compared with the numerical results. It concluded that there is a favorable agreement between the results of the proposed micromechanics model and available numerical results.
  • Keywords
    Matrix cracking , Delamination , Micromechanics , Unit cell , Strain energy release rate
  • Journal title
    Mechanics of Advanced Composite Structures
  • Serial Year
    2019
  • Journal title
    Mechanics of Advanced Composite Structures
  • Record number

    2452233