The paper presents a water retention model capable of predicting the hysteretic response of soils during both wetting–drying cycles at constant void ratio and compression–swelling cycles at constant suction. In the proposed model two main surfaces – the main wetting and main drying surfaces – enclose the domain of attainable soil states in the degree of saturation–suction–void ratio space. Inside this domain, the variation of degree of saturation is governed by a reversible scanning law, which describes the transition from one main surface to the other. A simplified calibration procedure is presented to select the values of the four parameters defining the two main surfaces by using a minimum of two compression tests at constant suction and...
There are several constitutive models developed for understanding coupled hydromechanical behavior o...
Compacted soils used as formation layers of railways and roads continuously undergo water content an...
Past experimental evidence has shown that Water Retention Curve (WRC) evolves with mechanical stress...
The paper presents a water retention model capable of predicting the hysteretic response of soils du...
The paper presents a model that takes into account the influence of void ratio and hydraulic hystere...
International audienceThe paper presents a soil water retention model that takes into account the ef...
A comprehensive description of the water retention behaviour of unsaturated soils requires accountin...
The paper presents an experimental and modelling approach for the soil-water retention behaviour of ...
The paper presents an experimental study on water retention behaviour of two reconstituted soils, a ...
Hysteresis is common in soil-water phenomena, and the soil-water retention relationship is not a one...
Experimental findings on the hysteresis of the soil water retention curve, relating the degree of sa...
A quantitative description of soil hysteretic response during drying-wetting cycles is required to i...
A new constitutive model for the soil-water retention behaviour of unsaturated soils is proposed, ab...
The water retention behaviour of soil can be defined as the relationship between the degree of satur...
This paper presents a novel approach to soil–water retention modelling that is based on the analysis...
There are several constitutive models developed for understanding coupled hydromechanical behavior o...
Compacted soils used as formation layers of railways and roads continuously undergo water content an...
Past experimental evidence has shown that Water Retention Curve (WRC) evolves with mechanical stress...
The paper presents a water retention model capable of predicting the hysteretic response of soils du...
The paper presents a model that takes into account the influence of void ratio and hydraulic hystere...
International audienceThe paper presents a soil water retention model that takes into account the ef...
A comprehensive description of the water retention behaviour of unsaturated soils requires accountin...
The paper presents an experimental and modelling approach for the soil-water retention behaviour of ...
The paper presents an experimental study on water retention behaviour of two reconstituted soils, a ...
Hysteresis is common in soil-water phenomena, and the soil-water retention relationship is not a one...
Experimental findings on the hysteresis of the soil water retention curve, relating the degree of sa...
A quantitative description of soil hysteretic response during drying-wetting cycles is required to i...
A new constitutive model for the soil-water retention behaviour of unsaturated soils is proposed, ab...
The water retention behaviour of soil can be defined as the relationship between the degree of satur...
This paper presents a novel approach to soil–water retention modelling that is based on the analysis...
There are several constitutive models developed for understanding coupled hydromechanical behavior o...
Compacted soils used as formation layers of railways and roads continuously undergo water content an...
Past experimental evidence has shown that Water Retention Curve (WRC) evolves with mechanical stress...