This paper presents the results of X-ray CT imaging of the microstructure of sand particles subjected to high pressure one-dimensional compression leading to particle crushing. A high resolution X-ray CT machine capable of in situ imaging was employed to capture images of the whole volume of a sand sample subjected to compressive stresses up to 79.3 MPa. Images of the whole sample obtained at different load stages were analysed using a commercial image processing software (Avizo) to reveal various microstructural properties, such as pore and particle volume distributions, spatial distribution of void ratios, relative breakage, and anisotropy of particles
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
AbstractIn this paper, localized deformation in partially saturated sand was investigated quantitati...
Ottawa sand and Angular sand consist of particles with distinct shapes. The x-ray computed tomograph...
This paper presents the results of X-ray CT imaging of the microstructure of sand particles subjecte...
Particle breakage alters particle-scale properties of granular soils including particle size, shape,...
The particle morphology and fabric of a granular soil influence its mechanical behavior. This study ...
International audienceParticle breakage of a granular material can cause significant changes in its ...
The particle morphology and fabric of a granular soil influence its mechanical behavior. This study ...
Ottawa sand and Angular sand consist of particles with distinct shapes. The x-ray computed tomograph...
International audienceThis work presents results from a series of triaxial compression tests on two ...
The deformation behavior of silica sand particles under one-dimensional (1D) loading compression was...
Grain breakage is of paramount importance for understanding the behaviour of granular materials used...
Failure mechanisms in individual sand particles under compressive loading at different loading rates...
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
AbstractIn this paper, localized deformation in partially saturated sand was investigated quantitati...
Ottawa sand and Angular sand consist of particles with distinct shapes. The x-ray computed tomograph...
This paper presents the results of X-ray CT imaging of the microstructure of sand particles subjecte...
Particle breakage alters particle-scale properties of granular soils including particle size, shape,...
The particle morphology and fabric of a granular soil influence its mechanical behavior. This study ...
International audienceParticle breakage of a granular material can cause significant changes in its ...
The particle morphology and fabric of a granular soil influence its mechanical behavior. This study ...
Ottawa sand and Angular sand consist of particles with distinct shapes. The x-ray computed tomograph...
International audienceThis work presents results from a series of triaxial compression tests on two ...
The deformation behavior of silica sand particles under one-dimensional (1D) loading compression was...
Grain breakage is of paramount importance for understanding the behaviour of granular materials used...
Failure mechanisms in individual sand particles under compressive loading at different loading rates...
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
The mechanical behaviour of sand aggregates is often studied as a proxy for poorly consolidated sand...
AbstractIn this paper, localized deformation in partially saturated sand was investigated quantitati...
Ottawa sand and Angular sand consist of particles with distinct shapes. The x-ray computed tomograph...