Simon J. Wheeler scite author profile

Data from a series of controlled suction triaxial tests on samples of compacted speswhite kaolin were used in the development of an elasto–plastic critical state framework for unsaturated soil. The framework is defined in terms of four state variables: mean net stress, deviator stress, suction and specific volume. Included within the proposed framework are an isotropic normal compression hyperline, a critical state hyperline and a state boundary hypersurface. For states that lie inside the state boundary hypersurface the soil behaviour is assumed to be elastic, with movement over the state boundary hypersurface corresponding to expansion of a yield surface in stress space. The pattern of swelling and collapse observed during wetting, the elastic–plastic compression behaviour during isotropic loading and the increase of shear strength with suction were all related to the shape of the yield surface and the hardening law defined by the form of the state boundary. By assuming that constant–suction cross–sections of the yield surface were elliptical it was possible to predict test paths for different types of triaxial shear test that showed good agreement with observed behaviour. The development of shear strain was also predicted with reasonable success, by assuming an associated flow rule. Les données obtenues dans une série d'essais triaxiaux à succion contrôlée sur des échantillons de kaolin speswhite compactés ont servi au développement d'un modèle élastoplastique à l'état critique pour les sols non saturés. Ce Modèle est défini par quatre variables d'état: la contrainte moyenne, le déviateur des contraintes, la succion et le volume spécifique. II inclue les hyperlignes des compressions normales isotropes et des états critiques et l'hypersurface d'état. Pour les états situés dans l'hypersurface d'état, le comportement du sol est supposé élastique. Tout déplacement au dessus de cette surface correspond à une expansion de la surface limite dans l'espace des contraintes. Les gonflements et effondrements observés lors de l'humidification, le comportement élastoplastique en compression lors des chargements isotropes et l'augmentation de la résistance au cisaillement avec la succion, ont tous ét&acute corrélés avec la forme de la surface limite ainsi qu'avec la loi de consolidation défine par la forme de la surface d'état. Si l'on suppose que les intersections succion constante–surface limite sont elliptiques, il est possible de calculer, pour différents types d'essais de cisaillement triaxiaux, des chemins qui se révèlent en bon accord avec les comportements observés. En choisissant une loi d'écoulement appropriée, le développement des déformations en cisaillement a également été prédit de manière fiable.

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Coupling of hydraulic hysteresis and stress–strain behaviour in unsaturated soils

Wheeler¹,

Sharma²,

Buisson³

2003

Géotechnique

273

368

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An anisotropic elastoplastic model for soft clays

Wheeler¹,

Näätänen²,

Karstunen³

et al. 2003

Can. Geotech. J.

388

316

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An anisotropic elastoplastic model for soft clays is presented. Experimental data from multistage drained triaxial stress path tests on Otaniemi clay from Finland provide support for the proposed shape of the yield curve and for the proposed relationship describing the change of yield curve inclination with plastic straining. Procedures are proposed for determining the initial inclination of the yield curve and the values of the two additional soil constants within the model. Comparisons of model simulations with experimental data demonstrate significant improvements in the performance of the new model over the Modified Cam Clay model. The remaining discrepancies are mainly attributable to the important role of destructuration in the sensitive Otaniemi clay

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Modelling the variation of degree of saturation in a deformable unsaturated soil

Gallipoli¹,

2003

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Citation for published item:qllipoliD hF nd heelerD F tF nd urstunenD wF @PHHQA 9wodelling the vrition of degree of sturtion in deformle unsturted soilF9D q¡ eotehniqueFD SQ @IAF ppF IHSEIIPF Further information on publisher's website: httpXGGwwwFthomstelfordFomGjournlsGstrtFspctournlitleaq¡ eotehniqueertileshaIQIQtournlwenuatruetourn Publisher's copyright statement:Additional information: Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details.

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Coupling of hydraulic hysteresis and stress–strain behaviour in unsaturated soils

Wheeler

Sharma

Buisson³

2003

Géotechnique

665

227

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Consideration of the different roles of pore air pressure, pore water pressure within bulk water and pore water pressure within meniscus water suggests that the degree of saturation will have a significant influence on the stress–strain behaviour of an unsaturated soil, in addition to any influence of suction. This suggestion is supported by experimental evidence. In the light of this, a new elasto-plastic framework for unsaturated soils is proposed, involving coupling of hydraulic hysteresis and mechanical behaviour. Within the proposed framework, plastic changes of degree of saturation influence the stress–strain behaviour, and plastic volumetric strains influence the water retention behaviour. A specific constitutive model for isotropic stress states is proposed, and model predictions are compared with experimental results, in order to demonstrate some of the capabilities of the new framework. Forms of behaviour that can be represented include proper transitions between saturated and unsaturated types of response, the occurrence of irreversible compression during the drying stages of wetting–drying cycles, and the influence of a wetting–drying cycle on subsequent behaviour during isotropic loading.

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Simon J. Wheeler

An elasto-plastic critical state framework for unsaturated soil

Coupling of hydraulic hysteresis and stress–strain behaviour in unsaturated soils

An anisotropic elastoplastic model for soft clays

Modelling the variation of degree of saturation in a deformable unsaturated soil

Coupling of hydraulic hysteresis and stress–strain behaviour in unsaturated soils

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