Add to ORKGAlthough the effect of anisotropy on soil behavior due to the parallel alignment of particles remains a subject of great interest, studying its effects on load deformation behavior of stabilized sand has yet to be undertaken. Therefore, this paper presents a study of the behaviour of a laboratory footing model, supported on anisotropic cemented sand, considering two relative densities and three cement contents. The initial anisotropy was induced by preparing samples with different orientations of the bedding plane α (from 0o to 90o). The results show a strong effect of anisotropy, wherein the ultimate pressure of untreated sand took place when α = 0° while the minimum value was achieved at α=60° & 75o for loose and dense sand respectively. ...
Stress history influences the behavior and strength of soils. Stress anisotropy of actual soils in n...
Due to the influence of bonding and soil fabric, the behavior of a natural soil differs significantl...
In this paper, a state-dependent semi-micromechanical framework for anisotropic sands is proposed. A...
Stress components in an anisotropic soil is analyzed on the assumption that it behaves like an aniso...
Anisotropy is one of the major aspects that affect soil behavior, and extensive efforts have investi...
The majority of granular soil is anisotropic material and it exhibits stress–strain variations depen...
Natural in-situ clay deposits display fabric anisotropy due to parallel alignment of their peds. The...
Anisotropic parallel alignment of particles is universally observed not only in river, beach and coa...
This paper presents an experimental investigation revisiting the anisotropic behavior of geomaterial...
An existing platform model for inherently anisotropic sands is extended to account for deformations ...
Most sedimentary deposits are inherently anisotropic due to their natural deposition in horizontal l...
Although the directional dependence of soil behaviour is a subject of great interest, yet studies of...
Artificially cemented sand has been widely used in practical applications relevant to soil improveme...
This paper presents an experimental investigation revisiting the anisotropic stress–strain–strength ...
International audienceGranular materials are often used in pavement structures. The influence of ani...
Stress history influences the behavior and strength of soils. Stress anisotropy of actual soils in n...
Due to the influence of bonding and soil fabric, the behavior of a natural soil differs significantl...
In this paper, a state-dependent semi-micromechanical framework for anisotropic sands is proposed. A...
Stress components in an anisotropic soil is analyzed on the assumption that it behaves like an aniso...
Anisotropy is one of the major aspects that affect soil behavior, and extensive efforts have investi...
The majority of granular soil is anisotropic material and it exhibits stress–strain variations depen...
Natural in-situ clay deposits display fabric anisotropy due to parallel alignment of their peds. The...
Anisotropic parallel alignment of particles is universally observed not only in river, beach and coa...
This paper presents an experimental investigation revisiting the anisotropic behavior of geomaterial...
An existing platform model for inherently anisotropic sands is extended to account for deformations ...
Most sedimentary deposits are inherently anisotropic due to their natural deposition in horizontal l...
Although the directional dependence of soil behaviour is a subject of great interest, yet studies of...
Artificially cemented sand has been widely used in practical applications relevant to soil improveme...
This paper presents an experimental investigation revisiting the anisotropic stress–strain–strength ...
International audienceGranular materials are often used in pavement structures. The influence of ani...
Stress history influences the behavior and strength of soils. Stress anisotropy of actual soils in n...
Due to the influence of bonding and soil fabric, the behavior of a natural soil differs significantl...
In this paper, a state-dependent semi-micromechanical framework for anisotropic sands is proposed. A...