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A robust identification procedure for phase field fracture mechanics parameters

Rakesh Kumar Tota, Marco Paggi

2023Theoretical and Applied Fracture Mechanics11 citationsDOIOpen Access PDF

Abstract

The classical Phase field (PF) for fracture formulation for brittle materials based on the finite element method involves three model parameters in addition to the Poisson ratio ν: Young’s modulus E, the fracture toughness Gc, and the internal length scale lc. The latter is mathematically conceived as a numerical regularization parameter that should tend to zero to recover linear elastic fracture mechanics (LEFM) predictions. To address this issue, a robust algorithm is implemented in MATLAB, which combines particle swarm optimization (PSO) and the phase field (PF) approach to fracture based on the finite element method. The algorithm has been applied to a series of uni-axial tensile tests (with E and lc to be identified) and to three-point bending tests (with E, lc and also Gc to be identified) on specimens made of ABS material. Results show that the optimal values of E and Gc are consistent in both tests, while lc presents a significant dependency upon the test type. Therefore, different values of the internal length scale should be identified and used to match the experimental responses under uni-axial tension or bending.

Topics & Concepts

Finite element methodFracture mechanicsFracture toughnessMathematicsPoisson's ratioStructural engineeringBendingModulusMaterials scienceMechanicsPoisson distributionEngineeringPhysicsGeometryComposite materialStatisticsNumerical methods in engineeringFatigue and fracture mechanicsFluid Dynamics Simulations and Interactions
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