AbstractA numerical method is developed to simulate complex two-dimensional crack propagation in quasi-brittle materials considering random heterogeneous fracture properties. Potential cracks are represented by pre-inserted cohesive elements with tension and shear softening constitutive laws modelled by spatially-varying Weibull random fields. Monte Carlo simulations of a concrete specimen under uni-axial tension were carried out with extensive investigation of the effects of important numerical algorithms and material properties on numerical efficiency and stability, crack propagation processes and load-carrying capacities. It was found that the homogeneous model led to incorrect crack patterns and load–displacement curves with strong mesh...
Numerical modelling of the fracture of heterogeneous brittle materials is of interest for several in...
AbstractThe simulation of the damage process in quasi-fragile materials may be classified in two lar...
Generation and packing algorithms are developed to create models of mesoscale heterogeneous concrete...
AbstractIn a recent publication (Yang et al., 2009. Monte Carlo simulation of complex cohesive fract...
Deformation and damage processes in brittle and quasi-brittle materials, such as rock and concrete, ...
A procedure for generating two-dimensional heterogeneous meso-scale concrete samples is developed, i...
Numerical simulations of concrete fracture performed with a probabilistic mesoscale discrete model a...
AbstractA procedure for generating two-dimensional heterogeneous meso-scale concrete samples is deve...
By utilizing numerical models and simulation, insights about the fracture process of brittle heterog...
The issue of generating non-Gaussian, multivariate and correlated random fields, while preserving th...
By utilizing numerical models and simulation, insights about the fracture process of brittle heterog...
The capability of representing fracture processes in non-homogeneous media is of great interest amon...
This paper presents analytical and numerical models for simulation of elastic and fracture propertie...
Lattice models established themselves as a powerful tool to simulate fracture processes in cementiti...
Fractures tend to propagate along the least resistance paths, and homogeneous-based models may not b...
Numerical modelling of the fracture of heterogeneous brittle materials is of interest for several in...
AbstractThe simulation of the damage process in quasi-fragile materials may be classified in two lar...
Generation and packing algorithms are developed to create models of mesoscale heterogeneous concrete...
AbstractIn a recent publication (Yang et al., 2009. Monte Carlo simulation of complex cohesive fract...
Deformation and damage processes in brittle and quasi-brittle materials, such as rock and concrete, ...
A procedure for generating two-dimensional heterogeneous meso-scale concrete samples is developed, i...
Numerical simulations of concrete fracture performed with a probabilistic mesoscale discrete model a...
AbstractA procedure for generating two-dimensional heterogeneous meso-scale concrete samples is deve...
By utilizing numerical models and simulation, insights about the fracture process of brittle heterog...
The issue of generating non-Gaussian, multivariate and correlated random fields, while preserving th...
By utilizing numerical models and simulation, insights about the fracture process of brittle heterog...
The capability of representing fracture processes in non-homogeneous media is of great interest amon...
This paper presents analytical and numerical models for simulation of elastic and fracture propertie...
Lattice models established themselves as a powerful tool to simulate fracture processes in cementiti...
Fractures tend to propagate along the least resistance paths, and homogeneous-based models may not b...
Numerical modelling of the fracture of heterogeneous brittle materials is of interest for several in...
AbstractThe simulation of the damage process in quasi-fragile materials may be classified in two lar...
Generation and packing algorithms are developed to create models of mesoscale heterogeneous concrete...