Fracture mechanics is one of the most important approaches to structural safety analysis. Modeling the fracture process zone (FPZ) is critical to understand the nonlinear cracking behavior of heterogeneous quasi-brittle materials such as concrete. In this work, a nonlinear extended scaled boundary finite element method (X-SBFEM) was developed incorporating the cohesive fracture behavior of concrete. This newly developed model consists of an iterative procedure to accurately model the traction distribution within the FPZ accounting for the cohesive interactions between crack surfaces. Numerical validations were conducted on both of the concrete beam and dam structures with various loading conditions. The results show that the proposed nonlin...
The scaled boundary finite element method coupled with the cohesive crack model is extended to inves...
In the present paper, a numerical algorithm based on the finite element method is proposed for the p...
Crack propagation in concrete gravity dams is investigated using scaled boundary polygons coupled wi...
Fracture mechanics is one of the most important approaches to structural safety analysis. Modeling t...
Fracture mechanics is one of the most important approaches to structural safety analysis. Modeling t...
This paper presents an extension of the recently-developed finite element-scaled boundary finite ele...
ABSTRACT: This study develops a two-step method, coupling the finite element method (FEM) and the sc...
Many concrete structures, such as bridges and wind turbine towers, fail mostly due to the fatigue ra...
This study develops a scaled boundary finite element method (SBFEM)-based approach for modelling fas...
A previously developed hybrid finite element–scaled boundary finite element method (FEM–SBFEM) is ex...
Aiming at the numerical simulation of the entire crack propagation process in concrete, a numerical ...
A boundary-element formulation for modeling the nonlinear behavior of reinforced concrete is present...
An automatic cohesive crack propagation modelling methodology for quasi-brittle materials using poly...
This paper develops a reinforced concrete model that is based on the novel hybrid finite element-sca...
This study develops an innovative numerical approach for simulating complex mesoscale fracture in co...
The scaled boundary finite element method coupled with the cohesive crack model is extended to inves...
In the present paper, a numerical algorithm based on the finite element method is proposed for the p...
Crack propagation in concrete gravity dams is investigated using scaled boundary polygons coupled wi...
Fracture mechanics is one of the most important approaches to structural safety analysis. Modeling t...
Fracture mechanics is one of the most important approaches to structural safety analysis. Modeling t...
This paper presents an extension of the recently-developed finite element-scaled boundary finite ele...
ABSTRACT: This study develops a two-step method, coupling the finite element method (FEM) and the sc...
Many concrete structures, such as bridges and wind turbine towers, fail mostly due to the fatigue ra...
This study develops a scaled boundary finite element method (SBFEM)-based approach for modelling fas...
A previously developed hybrid finite element–scaled boundary finite element method (FEM–SBFEM) is ex...
Aiming at the numerical simulation of the entire crack propagation process in concrete, a numerical ...
A boundary-element formulation for modeling the nonlinear behavior of reinforced concrete is present...
An automatic cohesive crack propagation modelling methodology for quasi-brittle materials using poly...
This paper develops a reinforced concrete model that is based on the novel hybrid finite element-sca...
This study develops an innovative numerical approach for simulating complex mesoscale fracture in co...
The scaled boundary finite element method coupled with the cohesive crack model is extended to inves...
In the present paper, a numerical algorithm based on the finite element method is proposed for the p...
Crack propagation in concrete gravity dams is investigated using scaled boundary polygons coupled wi...