The surface morphology of a rock joint is closely related to its mechanical properties. To reasonably characterize a rock surface, two new roughness parameters were proposed in this paper. One is related to the average slope angle of asperities that contribute to the shear strength, and the other reflects the frictional behavior of asperities that is defined as the maximum possible contact area in the shear direction. Taking the standard joint roughness coefficient profiles as example, these two roughness parameters can be applied to describe the directional characteristics of shear strength. Based on their relationships with initial dilation angles, the proposed roughness parameters were incorporated into a peak shear strength criterion. I...
In relation to the shearing of rock joints, the precise and continuous evaluation of asperity interl...
In this paper, using natural rock joint specimens and direct shear-testing machine, the influences o...
The morphology of the joint surface is multi-scale, and it can be divided into first-order asperity ...
One of the primary objectives of this work is to improve the understanding of the frictional behavio...
Accurate quantification of roughness is important in modeling strength, deformability and fluid flow...
The mechanical properties of joints are important factors affecting the safety and stability of rock...
One of the primary objectives of this work is to better understand the frictional behavior of joints...
The 10 standard roughness joint profiles provided a visual comparison to get the joint roughness coe...
Geotechnical structures in rock masses such as tunnels, underground caverns, dam foundations and roc...
The theoretical basis for evaluating shear strength in rock joints is presented and used to derive a...
Experimental study of the shear strength of unfilled and rough rock joints Ahmed Elsayed, KTH A se...
Joint roughness determination is a fundamental issue in many areas of rock engineering, because join...
International audienceThree new peak shear stress criteria were proposed to predict the Variation of...
Rock joint surface roughness is characterized by using statistical parameters and fractal parameters...
In the evaluation of a slope for stability, it is important to determine useable values of various r...
In relation to the shearing of rock joints, the precise and continuous evaluation of asperity interl...
In this paper, using natural rock joint specimens and direct shear-testing machine, the influences o...
The morphology of the joint surface is multi-scale, and it can be divided into first-order asperity ...
One of the primary objectives of this work is to improve the understanding of the frictional behavio...
Accurate quantification of roughness is important in modeling strength, deformability and fluid flow...
The mechanical properties of joints are important factors affecting the safety and stability of rock...
One of the primary objectives of this work is to better understand the frictional behavior of joints...
The 10 standard roughness joint profiles provided a visual comparison to get the joint roughness coe...
Geotechnical structures in rock masses such as tunnels, underground caverns, dam foundations and roc...
The theoretical basis for evaluating shear strength in rock joints is presented and used to derive a...
Experimental study of the shear strength of unfilled and rough rock joints Ahmed Elsayed, KTH A se...
Joint roughness determination is a fundamental issue in many areas of rock engineering, because join...
International audienceThree new peak shear stress criteria were proposed to predict the Variation of...
Rock joint surface roughness is characterized by using statistical parameters and fractal parameters...
In the evaluation of a slope for stability, it is important to determine useable values of various r...
In relation to the shearing of rock joints, the precise and continuous evaluation of asperity interl...
In this paper, using natural rock joint specimens and direct shear-testing machine, the influences o...
The morphology of the joint surface is multi-scale, and it can be divided into first-order asperity ...