This paper reviews numerical methods used to simulate desiccation cracks in clayey soils. It examines five numerical approaches: Finite Element (FEM), Lattice Boltzmann (LBM), Discrete Element (DEM), Cellular Automaton (CAM), and Phase Field (PFM) Methods. The paper presents a simplified description of the methods, including their basic numerical formulations. Several factors such as the multiphase nature of soils, heterogeneity, nonlinearities, coupling, scales of analysis, and computational aspects are discussed. The review highlights the characteristics, strengths, and limitations of each method. FEM shows a good capacity to deal with the thermo-hydromechanical behavior of clays when drying that complement well with the ability of DEM to...
Desiccation processes in clayey soils involve a gradual moisture content loss induced by evaporation...
Cracks in clayey soils are common during desiccation. The presence of cracks significantly alters th...
Desiccation cracking in clayey soils occurs when they lose moisture, leading to an increase in their...
This paper reviews numerical methods used to simulate desiccation cracks in clayey soils. It examine...
This paper presents the fundamentals and the mathematical formulation to study desiccation cracking ...
This paper presents a numerical study of the desiccation processes of low-plasticity clayey soils th...
It is well known that clayey soils undergoing desiccation tend to shrink and eventually crack. Analy...
International audienceThis paper presents a numerical study on the desiccation cracking process of c...
Ce travail a pour objectif d’étudier la fissuration des sols due au séchage par des approches numéri...
In this paper, a general framework is presented using a finite element model (FEM) combining Continu...
This entry presents the theoretical fundamentals, the mathematical formulation, and the numerical so...
The formation and propagation of desiccation cracks in soil is an extremely complex phenomenon becau...
The ability to model and predict the formation of desiccation cracks is potentially beneficial in ma...
Soil shrinks as it desiccates, and the magnitude of shrinkage can be large for clayey soils. The dr...
Desiccation processes in clayey soils involve a gradual moisture content loss induced by evaporation...
Cracks in clayey soils are common during desiccation. The presence of cracks significantly alters th...
Desiccation cracking in clayey soils occurs when they lose moisture, leading to an increase in their...
This paper reviews numerical methods used to simulate desiccation cracks in clayey soils. It examine...
This paper presents the fundamentals and the mathematical formulation to study desiccation cracking ...
This paper presents a numerical study of the desiccation processes of low-plasticity clayey soils th...
It is well known that clayey soils undergoing desiccation tend to shrink and eventually crack. Analy...
International audienceThis paper presents a numerical study on the desiccation cracking process of c...
Ce travail a pour objectif d’étudier la fissuration des sols due au séchage par des approches numéri...
In this paper, a general framework is presented using a finite element model (FEM) combining Continu...
This entry presents the theoretical fundamentals, the mathematical formulation, and the numerical so...
The formation and propagation of desiccation cracks in soil is an extremely complex phenomenon becau...
The ability to model and predict the formation of desiccation cracks is potentially beneficial in ma...
Soil shrinks as it desiccates, and the magnitude of shrinkage can be large for clayey soils. The dr...
Desiccation processes in clayey soils involve a gradual moisture content loss induced by evaporation...
Cracks in clayey soils are common during desiccation. The presence of cracks significantly alters th...
Desiccation cracking in clayey soils occurs when they lose moisture, leading to an increase in their...