Add to ORKGThe influence of particle shape on the stress-strain response of fine silica sand is investigated experimentally. Two sands from the same source and with the same particle size distribution were examined using Fourier descriptor analysis for particle shape. Their grains were, on average, found to have similar angularity but different elongation. During triaxial stress path testing, the stress-strain behavior of the sands for both loading and creep stages were found to be influenced by particle elongation. In particular, the behavior of the sand with less elongated grains was more like that of rounded glass beads during creep. The results highlight the role of particle shape in stress transmission in granular packings and suggest that shape ...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The relationship between critical state and particle shape corresponds to the most fundamental aspec...
This paper presents the effect of particle morphology (grain shape) on the mechanical response of gr...
This paper presents the effect of particle morphology (grain shape) on the mechanical response of gr...
The mechanical behaviour of a granular ensemble at a macro scale is an integration of the interparti...
The mechanical behaviour of a granular ensemble at a macro scale is an integration of the interparti...
There is considerable interest in the high-rate compaction of brittle granular materials such as san...
Particle shape is evaluated on three scales corresponding to form, roundness and roughness. Shape at...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
There is considerable interest in the high-rate compaction of brittle granular materials such as san...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The relationship between critical state and particle shape corresponds to the most fundamental aspec...
This paper presents the effect of particle morphology (grain shape) on the mechanical response of gr...
This paper presents the effect of particle morphology (grain shape) on the mechanical response of gr...
The mechanical behaviour of a granular ensemble at a macro scale is an integration of the interparti...
The mechanical behaviour of a granular ensemble at a macro scale is an integration of the interparti...
There is considerable interest in the high-rate compaction of brittle granular materials such as san...
Particle shape is evaluated on three scales corresponding to form, roundness and roughness. Shape at...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
There is considerable interest in the high-rate compaction of brittle granular materials such as san...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The paper presents a 3D analysis (3DA) to evaluate the particle shape and size of silica and calcare...
The relationship between critical state and particle shape corresponds to the most fundamental aspec...