NRFM: Numerical aspects of regularized failure models
Minisymposium organized by
- L. De Lorenzis, ETH Zurich, Switzerland
- M. Jirásek, CTU Prague, Czechia
- C. Maurini, Université Sorbonne, France
- N. Moës, Ecole Centrale de Nantes, France
Session I, Thursday, 16:00-17:40, lecture room C204, chaired by ...
16:00-16:20 | N. Moes*, B. Le: The time-step choice in regularized damage model simulations |
16:20-16:40 | B. Li*, I. Ang, N. Bouklas: Stabilized formulation for phase-field fracture in nearly incompressible hyperelasticity |
16:40-17:00 | H.-Y. Kim, H.-G. Kim*: Adaptive mesh refinement and coarsening for the analysis of three-dimensional phase-field fracture with discrete cracks |
17:00-17:20 | I. Jain, A. Muixí, C. Annavarapu, S.S. Mulay*, A. Rodríguez-Ferran: An adaptive phase-field method to model fracture propagation in orthotropic materials |
17:20-17:40 | C.P. Rao, A. Aditya, H. Subramanian*, S.S. Mulay, C. Annavarapu: Extension of phase-field method for predicting fracture path in bi-materials by strong-form meshless method |
Session II, Friday, 11:00-12:40, lecture room C204, chaired by ...
11:00-11:20 | W. N. Munshi*, C. Annavarapu, S. Mulay, A. Rodriguez-Ferran: Numerical modelling of three-dimensional fracture propagation in layered materials using parallel computing |
11:20-11:40 | R. Assaf*, C. Birk, H. Gravenkamp, S. Natarajan: Investigating brittle fracture with an adaptive phase-field model using the scaled boundary finite element method in three dimensions |
11:40-12:00 | G. Rastiello*, N. Moës, B. Masseron: Robust solvers for "Lip-field" damage models |
12:00-12:20 | K. Jukic*, T. Jarak: Dual-mesh approach to discretisation for phase-field fracture method |
12:20-12:40 | S. Loehnert*, V. Klempt, C. Krueger, L. Munk: An enriched phase-field approach for the efficient simulation of fracture processes in 2D |
*Asterisks denote presenting authors.