Cyclic rotational behavior of a soil–structure interface is imperative for understanding the three-dimensional behavior; this requires testing the interface under systematically varying rotational shear paths. A series of cyclic tests were conducted on the gravel–steel interface along linear, elliptical, and circular shear paths by systematically varying the orthogonal amplitude shear displacement ratio. The resultant peak shear stress was observed to be independent of the shear direction and dependent on the shear path. The interface demonstrates a coupling response among the orthogonal shear directions during the rotational shear, which governs the three-dimensional shear mechanism. Owing to such coupling, during the cyclic shear, the unl...
Many civil engineering problems involve interaction between soil and structural elements. The load t...
The shaft capacity of piles in sand subjected to cyclic (wave) loading has been observed to decrease...
The main objective of this thesis is to investigate the effects of various stress and displacement p...
Gravel–structure interfaces are involved in many large-scale geotechnical applications and play a vi...
Three-dimensional behavior of the interface between a structure and gravelly soil is of great concer...
The study of the shear behavior of particulate (soil) – continuum (man-made material) interfaces has...
A new apparatus is used to study the behavior of an interface between dry sand and a rough surface u...
The understanding of cyclic and post-cyclic behaviours of the soil–geosynthetic interface is essenti...
A limiting factor in the drive to deliver performance-based design is the lack of knowledge regardin...
The discrete element method (DEM) was used to study the behavior of crushable angular gravel in the ...
AbstractThe dynamic frictional properties of the soil-geosynthetic interface play an important role ...
Rotational shear is a class of loading under which the second invariant of the deviatoric stress ten...
An apparatus capable of direct shear type and simple shear type testing of interfaces between soil a...
Rotational shear is the type of loading path where samples are subjected to cyclic rotation of princ...
In order to investigate the influence of sand particle-size gradation on cyclic and postcyclic shear...
Many civil engineering problems involve interaction between soil and structural elements. The load t...
The shaft capacity of piles in sand subjected to cyclic (wave) loading has been observed to decrease...
The main objective of this thesis is to investigate the effects of various stress and displacement p...
Gravel–structure interfaces are involved in many large-scale geotechnical applications and play a vi...
Three-dimensional behavior of the interface between a structure and gravelly soil is of great concer...
The study of the shear behavior of particulate (soil) – continuum (man-made material) interfaces has...
A new apparatus is used to study the behavior of an interface between dry sand and a rough surface u...
The understanding of cyclic and post-cyclic behaviours of the soil–geosynthetic interface is essenti...
A limiting factor in the drive to deliver performance-based design is the lack of knowledge regardin...
The discrete element method (DEM) was used to study the behavior of crushable angular gravel in the ...
AbstractThe dynamic frictional properties of the soil-geosynthetic interface play an important role ...
Rotational shear is a class of loading under which the second invariant of the deviatoric stress ten...
An apparatus capable of direct shear type and simple shear type testing of interfaces between soil a...
Rotational shear is the type of loading path where samples are subjected to cyclic rotation of princ...
In order to investigate the influence of sand particle-size gradation on cyclic and postcyclic shear...
Many civil engineering problems involve interaction between soil and structural elements. The load t...
The shaft capacity of piles in sand subjected to cyclic (wave) loading has been observed to decrease...
The main objective of this thesis is to investigate the effects of various stress and displacement p...