• Title of article

    A non-ordinary state-based peridynamic method to model solid material deformation and fracture

  • Author/Authors

    Warren، نويسنده , , Thomas L. and Silling، نويسنده , , Stewart A. and Askari، نويسنده , , Abe and Weckner، نويسنده , , Olaf and Epton، نويسنده , , Michael A. and Xu، نويسنده , , Jifeng، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    10
  • From page
    1186
  • To page
    1195
  • Abstract
    In this paper, we develop a new non-ordinary state-based peridynamic method to solve transient dynamic solid mechanics problems. This new peridynamic method has advantages over the previously developed bond-based and ordinary state-based peridynamic methods in that its bonds are not restricted to central forces, nor is it restricted to a Poisson’s ratio of 1/4 as with the bond-based method. First, we obtain non-local nodal deformation gradients that are used to define nodal strain tensors. The deformation gradient tensors are used with the nodal strain tensors to obtain rate of deformation tensors in the deformed configuration. The polar decomposition of the deformation gradient tensors are then used to obtain the nodal rotation tensors which are used to rotate the rate of deformation tensors and previous Cauchy stress tensors into an unrotated configuration. These are then used with conventional Cauchy stress constitutive models in the unrotated state where the unrotated Cauchy stress rate is objective. We then obtain the unrotated Cauchy nodal stress tensors and rotate them back into the deformed configuration where they are used to define the forces in the nodal connecting bonds. As a first example we quasi-statically stretch a bar, hold it, and then rotate it ninety degrees to illustrate the methods finite rotation capabilities. Next, we verify our new method by comparing small strain results from a bar fixed at one end and subjected to an initial velocity gradient with results obtained from the corresponding one-dimensional small strain analytical solution. As a last example, we show the fracture capabilities of the method using both a notched and un-notched bar.
  • Keywords
    Non-local model , Finite elastic–plastic deformation , EMU , Transient solid dynamics , peridynamics
  • Journal title
    International Journal of Solids and Structures
  • Serial Year
    2009
  • Journal title
    International Journal of Solids and Structures
  • Record number

    1387017