<p>In this thesis, a hybrid numerical approach is proposed for modeling dynamic fracture in brittle materials. This method is based on a combination of embedded finite element methods and extrinsic cohesive zone models. The effect of different methods to enforce the kinematics at the embedded interface for crack initiation and propagation are investigated and numerically compared. Finally, Nitsche's method is suggested within the hybrid numerical schemes to simulate dynamic fracture. In the pre-failure stage, terms for consistency and stabilization are introduced into the finite element framework with Nitsche's method. When the fracture criterion is met, the extrinsic cohesive law governs the behavior of the opening surfaces by a simple cha...
190 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Realistic numerical analysis ...
A multiscale method is presented which couples a molecular dynamics approach for describing fracture...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...
Dynamic crack microbranching processes in brittle materials are investigated by means of a computati...
The modelling of quasi-brittle fracture processes by a hybrid finite element formulation is introduc...
This paper presents the extension of some finite elements with embedded strong discontinuities to th...
This work proposes an efficient FE-based approach for reproducing dynamic crack propagation phenomen...
A method is presented for simulating dynamic crack propagation using a coupled molecular dynamics/ex...
This paper presents an overview of meshfree methods with respect to their application to dynamic fra...
The cohesive segments method is a finite element framework that allows for the simulation of the nuc...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
AbstractThis paper is devoted to the formulation of transitions in fracture for quasi static and dyn...
Dynamic fracture phenomena are studied employing low cost computational tools based on Finite Elemen...
190 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Realistic numerical analysis ...
A multiscale method is presented which couples a molecular dynamics approach for describing fracture...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...
Dynamic crack microbranching processes in brittle materials are investigated by means of a computati...
The modelling of quasi-brittle fracture processes by a hybrid finite element formulation is introduc...
This paper presents the extension of some finite elements with embedded strong discontinuities to th...
This work proposes an efficient FE-based approach for reproducing dynamic crack propagation phenomen...
A method is presented for simulating dynamic crack propagation using a coupled molecular dynamics/ex...
This paper presents an overview of meshfree methods with respect to their application to dynamic fra...
The cohesive segments method is a finite element framework that allows for the simulation of the nuc...
We present a method to reduce mesh bias in dynamic fracture simulations using the finite element met...
AbstractThis paper is devoted to the formulation of transitions in fracture for quasi static and dyn...
Dynamic fracture phenomena are studied employing low cost computational tools based on Finite Elemen...
190 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Realistic numerical analysis ...
A multiscale method is presented which couples a molecular dynamics approach for describing fracture...
A cohesive fracture model that combines tension, compression and shear material behaviour is impleme...