• Title of article

    Computation of dynamic stress intensity factors in cracked functionally graded materials using scaled boundary polygons

  • Author/Authors

    Chiong، نويسنده , , Irene and Ooi، نويسنده , , Ean Tat and Song، نويسنده , , Chongmin and Tin-Loi، نويسنده , , Francis، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    22
  • From page
    210
  • To page
    231
  • Abstract
    In this paper, the recently developed scaled boundary polygons formulation for the evaluation of stress intensity factors in functionally graded materials is extended to elasto-dynamics. In this approach, the domain is discretized using polygons with arbitrary number of sides. Within each polygon, the scaled boundary polygon shape functions are used to interpolate the displacement field. For uncracked polygons, these shape functions are linearly complete. In a cracked polygon, the shape functions analytically model the stress singularity at the crack tip. Therefore, accurate dynamic stress intensity factors can be computed directly from their definitions. Only a single polygon is necessary to accurately compute the stress intensity factors. To model the material heterogeneity in functionally graded materials, the material gradients are approximated locally in each polygon using polynomial functions. This leads to semi-analytical expressions for both the stiffness and the mass matrices, which can be integrated straightforwardly. The versatility of the developed formulation is demonstrated by modeling five numerical examples involving cracked functionally graded specimens subjected to dynamic loads.
  • Keywords
    Functionally graded materials , Dynamic stress intensity factors , Scaled boundary finite element , Polygon element , fracture
  • Journal title
    ENGINEERING FRACTURE MECHANICS
  • Serial Year
    2014
  • Journal title
    ENGINEERING FRACTURE MECHANICS
  • Record number

    2344393