International audienceThis article focuses on modeling the strain hardening-softening response of statically compacted silty sand as observed from a comprehensive series of suction-controlled, consolidated-drained triaxial tests accomplished in a fully-automated, double-walled triaxial test system via the axis-translation technique. The constitutive model used in this work is based on the theory of Bounding Surface (BS) plasticity, and is formulated within a critical state framework. The essential BS model parameters are calibrated using the full set of triaxial test results and then used for predictions of compacted silty sand response at matric suction states varying from 50 to 750 kPa. Complementary simulations using the Barcelona Basic ...
This paper presents a critical state constitutive model for cemented sand. The model uses a single c...
Despite the large number of modifications proposed to the standard Cam-clay models over the last thr...
ABSTRACT: This article presents a constitutive model for dense sand that exhibits a post-peak strain...
International audienceThis article focuses on modeling the strain hardening-softening response of st...
The stress-strain response of compacted silty sand with over-consolidated stress history often exhib...
Most of the previous research has been focused on developing and validating constitutive models to p...
Cyclic behaviour of soil has stimulated researchers for several decades to develop constitutive mode...
International audienceThis paper presents a bounding surface model for unsaturated compacted bentoni...
A modified bounding surface plasticity model developed within the critical state soil mechanics fram...
The accurate simulation of complex dynamic phenomena requires the availability of advanced constitut...
A simple model is described which is able to represent the mechanical behaviour of granular soils ov...
The paper describes the development of a constitutive model for a poorly graded sand, which was used...
The paper analyses the mechanical behaviour of a silty sand, as it was measured in laboratory tests ...
Predicting accurately the response of sands to cyclic loads is as relevant as still challenging when...
This paper presents a critical state constitutive model for cemented sand. The model uses a single c...
Despite the large number of modifications proposed to the standard Cam-clay models over the last thr...
ABSTRACT: This article presents a constitutive model for dense sand that exhibits a post-peak strain...
International audienceThis article focuses on modeling the strain hardening-softening response of st...
The stress-strain response of compacted silty sand with over-consolidated stress history often exhib...
Most of the previous research has been focused on developing and validating constitutive models to p...
Cyclic behaviour of soil has stimulated researchers for several decades to develop constitutive mode...
International audienceThis paper presents a bounding surface model for unsaturated compacted bentoni...
A modified bounding surface plasticity model developed within the critical state soil mechanics fram...
The accurate simulation of complex dynamic phenomena requires the availability of advanced constitut...
A simple model is described which is able to represent the mechanical behaviour of granular soils ov...
The paper describes the development of a constitutive model for a poorly graded sand, which was used...
The paper analyses the mechanical behaviour of a silty sand, as it was measured in laboratory tests ...
Predicting accurately the response of sands to cyclic loads is as relevant as still challenging when...
This paper presents a critical state constitutive model for cemented sand. The model uses a single c...
Despite the large number of modifications proposed to the standard Cam-clay models over the last thr...
ABSTRACT: This article presents a constitutive model for dense sand that exhibits a post-peak strain...