A phase‐field model for brittle fracture of anisotropic materials

Illustrative applications have demonstrated that the proposed phase-field model with two damage variables (LTD model) is a better candidate at representing the complex features of

Similarly, at higher loading level, branched crack tips release more energy and may survive longer than for configurations with less energy, resulting in a transition to

A new phase field model is introduced, which can be viewed as a nontrivial generalisation of what is known as the Caginalp model. It involves in particular nonlinear diffusion terms.

The implicit scheme is faster than the explicit scheme, while the main advantage of the adaptive scheme is a calculation time which weakly correlates with the number of load cycles

The goal of this paper is to develop a complete and robust phase field model for a fluid-driven fracture propagation in a poroelastic medium with the solid structure

A phase field method to simulate crack nucleation and propagation in strongly heterogeneous materials from direct imaging of their microstructure. Eng

We have some thoughts on phase field approaches to model fracture of ”incompressible” soft tissues... Towards Real-Time Multi-Scale Simulation

[3] DOLFIN: a C++/Python Finite Element Library, Automated Solution of Differential Equations by the Finite Element Method, Volume 84 of Lecture Notes in Computational Science