Numerical simulation of lumpy soils using a hypoplastic model

X. S. Shi; I. Herle

doi:10.1007/s11440-016-0447-7

Numerical simulation of lumpy soils using a hypoplastic model

X. S. Shi^*, I. Herle

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

43 Citations (Scopus)

Abstract

The lumpy soil is a by product of the open-pit mining. A composite-lumpy material (in which, the lumps are randomly distributed in the reconstituted soil) is being created due to the degradation of the initial granular structure. In the present study, the compression and failure behaviour of an artificial lumpy material with randomly distributed inclusions are investigated using the finite element method. The computation results show that the stress ratio, defined as the ratio of the volume average stress between the lumps and the reconstituted soil within the inter-lump voids, is significantly affected by both the volume fraction and the preconsolidation pressure of the lumps under an isotropic compression path, while the volume fraction of the lumps plays a minor role under a triaxial compression path. Based on the simulation results, a homogenization law was proposed utilizing the secant stiffnesses.

Original language	English
Pages (from-to)	349-363
Number of pages	15
Journal	Acta Geotechnica
Volume	12
Issue number	2
DOIs	https://doi.org/10.1007/s11440-016-0447-7
Publication status	Published - 1 Apr 2017
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2016, Springer-Verlag Berlin Heidelberg.

Keywords

Artificial lumpy soil
Homogenization law
Landfills
Open-pit mining
Stress distribution

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10.1007/s11440-016-0447-7

Cite this

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title = "Numerical simulation of lumpy soils using a hypoplastic model",

abstract = "The lumpy soil is a by product of the open-pit mining. A composite-lumpy material (in which, the lumps are randomly distributed in the reconstituted soil) is being created due to the degradation of the initial granular structure. In the present study, the compression and failure behaviour of an artificial lumpy material with randomly distributed inclusions are investigated using the finite element method. The computation results show that the stress ratio, defined as the ratio of the volume average stress between the lumps and the reconstituted soil within the inter-lump voids, is significantly affected by both the volume fraction and the preconsolidation pressure of the lumps under an isotropic compression path, while the volume fraction of the lumps plays a minor role under a triaxial compression path. Based on the simulation results, a homogenization law was proposed utilizing the secant stiffnesses.",

keywords = "Artificial lumpy soil, Homogenization law, Landfills, Open-pit mining, Stress distribution",

author = "Shi, \{X. S.\} and I. Herle",

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doi = "10.1007/s11440-016-0447-7",

language = "English",

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T1 - Numerical simulation of lumpy soils using a hypoplastic model

AU - Shi, X. S.

AU - Herle, I.

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N2 - The lumpy soil is a by product of the open-pit mining. A composite-lumpy material (in which, the lumps are randomly distributed in the reconstituted soil) is being created due to the degradation of the initial granular structure. In the present study, the compression and failure behaviour of an artificial lumpy material with randomly distributed inclusions are investigated using the finite element method. The computation results show that the stress ratio, defined as the ratio of the volume average stress between the lumps and the reconstituted soil within the inter-lump voids, is significantly affected by both the volume fraction and the preconsolidation pressure of the lumps under an isotropic compression path, while the volume fraction of the lumps plays a minor role under a triaxial compression path. Based on the simulation results, a homogenization law was proposed utilizing the secant stiffnesses.

AB - The lumpy soil is a by product of the open-pit mining. A composite-lumpy material (in which, the lumps are randomly distributed in the reconstituted soil) is being created due to the degradation of the initial granular structure. In the present study, the compression and failure behaviour of an artificial lumpy material with randomly distributed inclusions are investigated using the finite element method. The computation results show that the stress ratio, defined as the ratio of the volume average stress between the lumps and the reconstituted soil within the inter-lump voids, is significantly affected by both the volume fraction and the preconsolidation pressure of the lumps under an isotropic compression path, while the volume fraction of the lumps plays a minor role under a triaxial compression path. Based on the simulation results, a homogenization law was proposed utilizing the secant stiffnesses.

KW - Artificial lumpy soil

KW - Homogenization law

KW - Landfills

KW - Open-pit mining

KW - Stress distribution

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DO - 10.1007/s11440-016-0447-7

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EP - 363

JO - Acta Geotechnica

JF - Acta Geotechnica

IS - 2

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Numerical simulation of lumpy soils using a hypoplastic model

Abstract

Bibliographical note

Keywords

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