Behaviour of granular matter under gravity-induced stress gradient: A two-dimensional numerical investigation

Gravity is the most important load source in mining and geotechnical engineering, which causes both the stress level and stress gradient inside geomaterials. Different from the stress level, the influence of gravity-induced stress gradient on the behaviour of the material is still unknown. An in-dee...

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Published inInternational journal of mining science and technology Vol. 31; no. 3; pp. 439 - 450
Main Authors Li, Ruilin, Zhou, Guoqing, Mo, Pin-Qiang, Hall, Matthew R., Chen, Jun, Chen, Daqing, Cai, Shangyue
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2021
Elsevier
Subjects
Discrete element method
Granular matter
Gravitational field
Representative volume element
Stress gradient
Representative volume element
Granular matter
Gravitational field
Discrete element method
Stress gradient
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Abstract Gravity is the most important load source in mining and geotechnical engineering, which causes both the stress level and stress gradient inside geomaterials. Different from the stress level, the influence of gravity-induced stress gradient on the behaviour of the material is still unknown. An in-deep study on it will help to promote the understanding of material behaviour, especially for those cases related to unconventional gravity such as terrestrial ng physical modelling and extraterrestrial resource exploitation (g is the terrestrial gravitational acceleration). In this study, a high-order homogenization for granular materials is proposed at first, in which the stress gradient is drawn into the constitutive representation by adopting a representative volume element (RVE). The consolidation and shear strength behaviour of RVE are then investigated by performing numerical biaxial tests. The results show that all the compressibility, shear strength, shear stiffness, volumetric deformation, and critical state behaviour show a stress gradient dependence. A coupling between stress gradient, stress level, and material properties is also observed. These observations suggest that, besides the stress level, extra attention needs to be paid to material responses related to stress gradient during engineering practices.
AbstractList Gravity is the most important load source in mining and geotechnical engineering, which causes both the stress level and stress gradient inside geomaterials. Different from the stress level, the influence of gravity-induced stress gradient on the behaviour of the material is still unknown. An in-deep study on it will help to promote the understanding of material behaviour, especially for those cases related to unconventional gravity such as terrestrial ng physical modelling and extraterrestrial resource exploitation (g is the terrestrial gravitational acceleration). In this study, a high-order homogenization for granular materials is proposed at first, in which the stress gradient is drawn into the constitutive representation by adopting a representative volume element (RVE). The consolidation and shear strength behaviour of RVE are then investigated by performing numerical biaxial tests. The results show that all the compressibility, shear strength, shear stiffness, volumetric deformation, and critical state behaviour show a stress gradient dependence. A coupling between stress gradient, stress level, and material properties is also observed. These observations suggest that, besides the stress level, extra attention needs to be paid to material responses related to stress gradient during engineering practices.
Author Cai, Shangyue
Li, Ruilin
Chen, Jun
Chen, Daqing
Zhou, Guoqing
Mo, Pin-Qiang
Hall, Matthew R.
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Issue 3
Keywords Representative volume element
Granular matter
Gravitational field
Discrete element method
Stress gradient
Language English
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Snippet Gravity is the most important load source in mining and geotechnical engineering, which causes both the stress level and stress gradient inside geomaterials....
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StartPage 439
SubjectTerms Discrete element method
Granular matter
Gravitational field
Representative volume element
Stress gradient
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Title Behaviour of granular matter under gravity-induced stress gradient: A two-dimensional numerical investigation
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