Thermal effects in partially saturated soils: A constitutive model

Gabriella Bolzon; Bernhard A. Schrefler

doi:10.1002/nag.437

Thermal effects in partially saturated soils: A constitutive model

Gabriella Bolzon, Bernhard A. Schrefler

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33 Scopus citations

Abstract

The present paper is centred on the assessment of an elastic-plastic model for partially saturated soils, earlier proposed by the authors, for its predictive capability with respect to temperature changes, on the light of available experimental results. The model is cast within a constitutive framework that uses Bishop's stress and suction as main variables governing the volumetric response of the material. Some enhancement to the original temperature-independent formulation is proposed. In particular, functions describing the yield surface and the compressibility modulus are modified to account for the shrinking of the elastic domain and for the increase of irreversible volumetric strain with heating. Some examples illustrate the main features of the present proposal. Comparison with some experimental results is also included.

Original language	English (US)
Pages (from-to)	861-877
Number of pages	17
Journal	International Journal for Numerical and Analytical Methods in Geomechanics
Volume	29
Issue number	9
DOIs	https://doi.org/10.1002/nag.437
State	Published - Aug 10 2005

Keywords

Constitutive relationships
Partially saturated soils
Porous media
Thermal effects

ASJC Scopus subject areas

Geotechnical Engineering and Engineering Geology
Materials Science(all)
Mechanics of Materials
Computational Mechanics

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10.1002/nag.437

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AB - The present paper is centred on the assessment of an elastic-plastic model for partially saturated soils, earlier proposed by the authors, for its predictive capability with respect to temperature changes, on the light of available experimental results. The model is cast within a constitutive framework that uses Bishop's stress and suction as main variables governing the volumetric response of the material. Some enhancement to the original temperature-independent formulation is proposed. In particular, functions describing the yield surface and the compressibility modulus are modified to account for the shrinking of the elastic domain and for the increase of irreversible volumetric strain with heating. Some examples illustrate the main features of the present proposal. Comparison with some experimental results is also included.

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Thermal effects in partially saturated soils: A constitutive model

Abstract

Keywords

ASJC Scopus subject areas

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