Title of article
Modelling cohesive crack growth using a two-step finite element-scaled boundary finite element coupled method
Author/Authors
Z. J. Yang · A. J. Deeks، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
22
From page
333
To page
354
Abstract
A two-step method, coupling the finite element
method (FEM) and the scaled boundary finite
element method (SBFEM), is developed in this
paper for modelling cohesive crack growth in quasibrittle
normal-sized structures such as concrete beams.
In the first step, the crack trajectory is fully automatically
predicted by a recently-developed simple remeshing
procedure using the SBFEM based on the linear
elastic fracture mechanics theory. In the second step,
interfacial finite elements with tension-softening constitutive
laws are inserted into the crack path to model
gradual energy dissipation in the fracture process zone,
while the elastic bulk material is modelled by the
SBFEM. The resultant nonlinear equation system is
solved by a local arc-length controlled solver. Two
concrete beams subjected to mode-I and mixed-mode
fracture respectively are modelled to validate the proposed
method. The numerical results demonstrate that
this two-step SBFEM-FEM coupled method can predict
both satisfactory crack trajectories and accurate
load-displacement relations with a small number of
degrees of freedom, even for crack growth problemswith strong snap-back phenomenon. The effects of the
tensile strength, the mode-I and mode-II fracture energies
on the predicted load-displacement relations are
also discussed.
Keywords
Finite element method · Scaledboundary finite element method · Cohesive crackmodel · Mixed-mode crack propagation · Concretebeams · Arc-length method
Journal title
International Journal of Fracture
Serial Year
2007
Journal title
International Journal of Fracture
Record number
828499
Link To Document