• Title of article

    Tapered beam on elastic foundation model for compliance rate change of TDCB specimen

  • Author/Authors

    Qiao، نويسنده , , Pizhong and Wang، نويسنده , , Jialai and Davalos، نويسنده , , Julio F، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    15
  • From page
    339
  • To page
    353
  • Abstract
    A modified beam theory is developed to predict compliance rate change of tapered double cantilever beam (TDCB) specimens for mode-I fracture of hybrid interface bonds, such as polymer composites bonded to wood. The analytical model treats the uncracked region of the specimen as a tapered beam on generalized elastic foundation (TBEF), and the effect of crack tip deformation is incorporated in the formulation. A closed-form solution is obtained to compute the compliance and compliance vs. crack length rate change. The present TBEF model is verified with finite element analyses and experimental calibration data of compliance for wood–wood and wood–composite bonded interfaces. The compliance rate change can be used with experimental critical fracture loads to determine the respective critical strain energy release rates or fracture toughness of interface bonds. The present analytical model, which accounts for the crack tip deformation, can be efficiently and accurately used for compliance and compliance rate-change predictions of TDCB specimens and reduce the experimental calibration effort that is often necessary in fracture studies. Moreover, the constant compliance rate change obtained for linear-slope TDCB specimens can be applied with confidence in mode-I fracture tests of hybrid material interface bonds.
  • Keywords
    elastic foundation , Contoured double cantilever beam , Tapered beam , Mode-I fracture test , Compliance , Wood , fracture toughness , Experimental characterization , FRP Composites
  • Journal title
    ENGINEERING FRACTURE MECHANICS
  • Serial Year
    2003
  • Journal title
    ENGINEERING FRACTURE MECHANICS
  • Record number

    2340324