3D dynamic fragmentation with parallel dynamic insertion of cohesive elements

Dynamic fragmentation is a rapid and catastrophic failure of a material. During this process, the nucleation, propagation, branching, and coalescence of cracks results in the formation of fragments. The numerical modeling of this phenomenon is challenging because it requires high-performance computational capabilities. For this purpose, the finite-element method with dynamic insertion of cohesive elements was chosen. This paper describes the parallel implementation of its fundamental algorithms in the C++ open-source library Akantu. Moreover, a numerical instability that can cause the loss of energy conservation and possible solutions to it are illustrated. Finally, the method is applied to the dynamic fragmentation of a hollow sphere subjected to uniform radial expansion. Copyright (c) 2016 John Wiley & Sons, Ltd.

3D dynamic fragmentation with parallel dynamic insertion of cohesive elements

lifex-ep: a robust and efficient software for cardiac electrophysiology simulations

Efficient algorithms for wave problems

Segregated Algorithms for the Numerical Simulation of Cardiac Electromechanics in the Left Human Ventricle

Efficient algorithms for wave problems

Segregated Algorithms for the Numerical Simulation of Cardiac Electromechanics in the Left Human Ventricle

lifex-ep: a robust and efficient software for cardiac electrophysiology simulations