International audienceThe water retention curve (WRC) represents a key function in unsaturated soil mechanics as it can be applied for the modeling of the hydro-mechanical behaviour of unsaturated soils. The macroscopic WRC is characterised by different phenomena, such as hysteresis upon cyclic drainage and imbibition. With the help of modern X-ray computed tomography and hydraulic experiments that can be performed in a CT scanning environment, so-called in situ CT experiments, we image cyclic drainage and imbibition in a sand on the pore scale in order to quantitatively measure and study the change of microstructure and capillary state variables, characterising capillary effects in unsaturated granular soils. The measured pore scale data c...
Thesis (Ph.D.), Department of Civil and Environmental Engineering, Washington State UniversityThis s...
This thesis deals with hydromechanical couplings in soils and more particularly focusing on the capi...
Wetting can induce the so-called 'capillary collapse' in loose unsaturated soils. Collapse mechanism...
International audienceWater retention in granular soils is a key mechanism for understanding transpo...
With continuing evolution of imaging techniques from medical applications and materials science, non...
The water retention curve (WRC) defines the relationship between matric suction and saturation and i...
The water retention curve (WRC), representing an important key for the modelling of hydro-mechanical...
Understanding the dynamics of water distribution in soil is crucial for enhancing our knowledge of m...
International audienceThe aim of this paper is to characterise in 3D the capillary collapse phenomen...
We demonstrate the application of a high-resolution X-ray Computed Tomography (CT) method to quantif...
The soil water retention curve (SWRC) is a unique relationship between water content and soil water ...
We demonstrate the application of a high-resolution X-ray Computed Tomography (CT) method to quantif...
Water plays a vital role on the hydromechanical behavior of unsaturated soils. An important concern ...
AbstractCharacterization of soil hydraulic properties is essential for modelling water flow and solu...
The soil water retention curve is one of the most important properties used to predict the amount of...
Thesis (Ph.D.), Department of Civil and Environmental Engineering, Washington State UniversityThis s...
This thesis deals with hydromechanical couplings in soils and more particularly focusing on the capi...
Wetting can induce the so-called 'capillary collapse' in loose unsaturated soils. Collapse mechanism...
International audienceWater retention in granular soils is a key mechanism for understanding transpo...
With continuing evolution of imaging techniques from medical applications and materials science, non...
The water retention curve (WRC) defines the relationship between matric suction and saturation and i...
The water retention curve (WRC), representing an important key for the modelling of hydro-mechanical...
Understanding the dynamics of water distribution in soil is crucial for enhancing our knowledge of m...
International audienceThe aim of this paper is to characterise in 3D the capillary collapse phenomen...
We demonstrate the application of a high-resolution X-ray Computed Tomography (CT) method to quantif...
The soil water retention curve (SWRC) is a unique relationship between water content and soil water ...
We demonstrate the application of a high-resolution X-ray Computed Tomography (CT) method to quantif...
Water plays a vital role on the hydromechanical behavior of unsaturated soils. An important concern ...
AbstractCharacterization of soil hydraulic properties is essential for modelling water flow and solu...
The soil water retention curve is one of the most important properties used to predict the amount of...
Thesis (Ph.D.), Department of Civil and Environmental Engineering, Washington State UniversityThis s...
This thesis deals with hydromechanical couplings in soils and more particularly focusing on the capi...
Wetting can induce the so-called 'capillary collapse' in loose unsaturated soils. Collapse mechanism...