Add to ORKGInternational audienceThis paper aims to identify and evaluate various critical mechanisms associated with the processes of desiccation shrinkage in drying silty soils. A previously developed 1D bundle-of-tubes model is refined to simulate the various stages of drying shrinkage in 2D using the actual pore size distribution based on Mercury Intrusion Porosimetry (MIP) data. It is revealed that the resulting shrinkage evolution is affected by air entry that may occur in two possible scenarios: air incursion at the external surface and formation of vapor nucleus in the interior. The analysis of mechanical deformation is coupled with the numerical simulation of the drying process which can be often characterized as a two-stage development, cons...
This paper presents the results and analysis of two cracking tests carried on specimens of silty cla...
Numerical simulations for desiccation shrinking and cracking in fine-grained soil, based on Distinct...
Mechanisms of shrinkage and the conditions leading to cracking of drying soils are addressed. An ela...
International audienceThis paper aims to identify and evaluate various critical mechanisms associate...
This paper aims to identify and evaluate various critical mechanisms associated with the processes o...
International audienceThis paper aims to identify and quantitatively evaluate various critical mecha...
We examine the pore space evolution during saturated stage of soil drying as obtained via porosimetr...
A meso-scale model based on the evolution of the pore system and idealized as bimodal is numerically...
International audienceA multi-scale, multi-physics sequence of processes is discussed as developing ...
International audienceThis note investigates the drying-induced microstructure evolution of reconsti...
This paper presents a numerical study of the desiccation processes of low-plasticity clayey soils th...
Wetting collapse in sand is examined by means of experiments under X-ray tomography and pore-scale c...
Several models have been reported to predict the porosity during drying. However, currently these mo...
This paper presents the results and analysis of two cracking tests carried on specimens of silty cla...
Numerical simulations for desiccation shrinking and cracking in fine-grained soil, based on Distinct...
Mechanisms of shrinkage and the conditions leading to cracking of drying soils are addressed. An ela...
International audienceThis paper aims to identify and evaluate various critical mechanisms associate...
This paper aims to identify and evaluate various critical mechanisms associated with the processes o...
International audienceThis paper aims to identify and quantitatively evaluate various critical mecha...
We examine the pore space evolution during saturated stage of soil drying as obtained via porosimetr...
A meso-scale model based on the evolution of the pore system and idealized as bimodal is numerically...
International audienceA multi-scale, multi-physics sequence of processes is discussed as developing ...
International audienceThis note investigates the drying-induced microstructure evolution of reconsti...
This paper presents a numerical study of the desiccation processes of low-plasticity clayey soils th...
Wetting collapse in sand is examined by means of experiments under X-ray tomography and pore-scale c...
Several models have been reported to predict the porosity during drying. However, currently these mo...
This paper presents the results and analysis of two cracking tests carried on specimens of silty cla...
Numerical simulations for desiccation shrinking and cracking in fine-grained soil, based on Distinct...
Mechanisms of shrinkage and the conditions leading to cracking of drying soils are addressed. An ela...
