The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the laboratory sample level of scale. For this end, a numerical model based on the embedded discontinuity finite element method is applied here in simulations of uniaxial tension test on granitic rock. The rock material, consisting of Quartz (trigonal), Feldspar (triclinic) and Biotite (taken hexagonal here), is described as a linear elastic (up to fracture) heterogeneous and anisotropic material, which fails upon reaching the tensile strength of the individual constituent minerals. In the simulations of uniaxial tension test at two different levels of strain rate, the effect of averaged versus anisotropic elastic constants is tested. The results dem...
This article deals with numerical modeling of rock fracture under dynamic tensileloading and the rel...
The vast majority of rock masses is anisotropic due to factors such as layering, unequal in-situ str...
peer reviewedThe vast majority of rock masses is anisotropic due to factors such as layering, unequa...
The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the labo...
The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the labo...
The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the labo...
Inherent microcrack populations have a significant effect on the fracture behaviour of natural rocks...
Inherent microcrack populations have a significant effect on the fracture behaviour of natural rocks...
A new numerical approach is proposed in this study to model the mechanical behaviors of inherently a...
Excavation of boreholes, tunnels, caverns and underground galleries in anisotropic rock usually has ...
In-situ shear tests on a closely jointed rock mass containing two sets of joints, one continuous and...
A numerical study on the strain rate sensitivity of coarse-grained rock fracture under dynamic loadi...
In this paper, the failure behavior of geological dry sandstone is numerically investigated at mesom...
Numerical modeling, using two-dimensional distinct element methods, is used to examine the effect of...
Among the constitutive models for rock fractures developed over the years, Barton's empirical model ...
This article deals with numerical modeling of rock fracture under dynamic tensileloading and the rel...
The vast majority of rock masses is anisotropic due to factors such as layering, unequal in-situ str...
peer reviewedThe vast majority of rock masses is anisotropic due to factors such as layering, unequa...
The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the labo...
The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the labo...
The effect of rock crystal anisotropy is tested in numerical simulation of rock fracture at the labo...
Inherent microcrack populations have a significant effect on the fracture behaviour of natural rocks...
Inherent microcrack populations have a significant effect on the fracture behaviour of natural rocks...
A new numerical approach is proposed in this study to model the mechanical behaviors of inherently a...
Excavation of boreholes, tunnels, caverns and underground galleries in anisotropic rock usually has ...
In-situ shear tests on a closely jointed rock mass containing two sets of joints, one continuous and...
A numerical study on the strain rate sensitivity of coarse-grained rock fracture under dynamic loadi...
In this paper, the failure behavior of geological dry sandstone is numerically investigated at mesom...
Numerical modeling, using two-dimensional distinct element methods, is used to examine the effect of...
Among the constitutive models for rock fractures developed over the years, Barton's empirical model ...
This article deals with numerical modeling of rock fracture under dynamic tensileloading and the rel...
The vast majority of rock masses is anisotropic due to factors such as layering, unequal in-situ str...
peer reviewedThe vast majority of rock masses is anisotropic due to factors such as layering, unequa...