A hypoplastic approach to constitutive modelling was developed by Kolymbas 1996 considering a non-linear tensor function in the form of strain and stress rate. However, the implicit formulation of the hypoplastic model with indirect material parameters severely limits its applicability to real-world geotechnical problems. In many cases, the numerical analysis of geotechnical problems relies on simple elastoplastic constitutive models that cannot model a wide range of soil response aspects. One promising paradigm of constitutive modelling in geotechnics is hypoplasticity, but many of the hypoplastic models belong to advanced models. In the article, we present the simple hypoplastic model as an alternative to the widely used Mohr Coulomb elastoplastic model.

Formulation of a Basic Constitutive Model for Fine - Grained Soils Using the Hypoplastic Framework / Gago, Filip; Valletta, Alessandro; Muzik, Juraj. - In: CIVIL AND ENVIRONMENTAL ENGINEERING. - ISSN 2199-6512. - 17:2(2021), pp. 450-455. [10.2478/cee-2021-0047]

Formulation of a Basic Constitutive Model for Fine - Grained Soils Using the Hypoplastic Framework

Alessandro Valletta;
2021-01-01

Abstract

A hypoplastic approach to constitutive modelling was developed by Kolymbas 1996 considering a non-linear tensor function in the form of strain and stress rate. However, the implicit formulation of the hypoplastic model with indirect material parameters severely limits its applicability to real-world geotechnical problems. In many cases, the numerical analysis of geotechnical problems relies on simple elastoplastic constitutive models that cannot model a wide range of soil response aspects. One promising paradigm of constitutive modelling in geotechnics is hypoplasticity, but many of the hypoplastic models belong to advanced models. In the article, we present the simple hypoplastic model as an alternative to the widely used Mohr Coulomb elastoplastic model.
2021
Formulation of a Basic Constitutive Model for Fine - Grained Soils Using the Hypoplastic Framework / Gago, Filip; Valletta, Alessandro; Muzik, Juraj. - In: CIVIL AND ENVIRONMENTAL ENGINEERING. - ISSN 2199-6512. - 17:2(2021), pp. 450-455. [10.2478/cee-2021-0047]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/2933377
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