• Title of article

    Cohesive modeling of delamination in Z-pin reinforced composite laminates

  • Author/Authors

    Venkata Dantuluri، نويسنده , , Spandan Maiti، نويسنده , , Philippe H. Geubelle، نويسنده , , Rakesh Patel، نويسنده , , Hakan Kilic، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    16
  • From page
    616
  • To page
    631
  • Abstract
    The mode I interlaminar fracture in Z-pin reinforced composite laminates is modeled using a cohesive volumetric finite element (CVFE) scheme. The test configuration used in this study is a Z-pin reinforced double cantilever beam specimen. A bilinear rate-independent but damage-dependent cohesive traction–separation law is adopted to model the fracture of the unreinforced composite and discrete nonlinear spring elements to represent the effect of the Z-pins. The delamination toughness and failure strength of the Z-pin reinforced composites are determined by a detailed comparison study of the numerical modeling results with experimental data. To further reduce the computational effort, we introduce an equivalent distributed cohesive model as a substitute for the discrete nonlinear spring representation of the Z-pins. The cohesive model is implemented on various test problems with varying failure parameters and for varying spatial Z-pin reinforcement configurations showing good agreement with the experimental results.
  • Keywords
    Z-pin , Fracture toughness , CVFE scheme , Cohesive modeling , Mode I failure , Double cantilever beam , C. Delamination
  • Journal title
    COMPOSITES SCIENCE AND TECHNOLOGY
  • Serial Year
    2007
  • Journal title
    COMPOSITES SCIENCE AND TECHNOLOGY
  • Record number

    1040360