A Phase Field Staggered Algorithm for Fracture Modeling in Heterogeneous Microstructure (CROSBI ID 254811)
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Podaci o odgovornosti
Seleš, Karlo ; Lesičar, Tomislav ; Tonković, Zdenko ; Sorić, Jurica
engleski
A Phase Field Staggered Algorithm for Fracture Modeling in Heterogeneous Microstructure
The phase field approach to fracture modelling is based on a variational principle of the energy minimization as an extension of the Griffith’s brittle fracture theory. It introduces a scalar damage field, to differentiate between the fractured and intact material state. That way, it regularizes the sharp crack discontinuities and eliminates the need for the explicit tracking of the fracture surfaces. Moreover, the numerical implementation complexity is thus vastly reduced. In this contribution, the staggered phase field algorithm for the modelling of brittle fracture is implemented within the finite element program Abaqus. A common issue of the existing Abaqus implementations of the staggered phase field schemes is the computationally demanding fine incrementation of the loading applied, required to obtain an accurate solution. The computational time is reduced by imposing an appropriate convergence control paired with the Abaqus automatic time incrementation. Therefore, by taking advantage of the Abaqus computational efficiency, an accurate solution can be obtained for a moderate time step. The proposed model is verified on the symmetrically double notched tensile benchmark test. Compared to the existing implementations, it demonstrates an improvement in accuracy and the computational performance. Furthermore, a heterogeneous steel microstructure is analyzed displaying the model’s ability to solve crack nucleation and curvilinear crack paths.
ABAQUS, Heterogeneous Microstructure, Phase Field Fracture Modelling, Staggered Algorithm
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Podaci o izdanju
774
2018.
632-637
objavljeno
1013-9826
10.4028/www.scientific.net/kem.774.632