For mining and civil engineering projects rock slope stability is an essential part of safety and financial considerations. While large-scale stability can be simulated using rock mass properties, at smaller scale local variations in rock properties become significant and failure purely along discontinuities is possible. Plane failures, wedging and rockfall are common occurrences at this scale. These are often prevented by bolting or shotcrete support. For temporary slopes such support measures can be costly, and an ability to simulate possible failures along discontinuity planes becomes useful for evaluation of support necessity. Conventional methods for evaluating rock mass properties require making assumptions for scale effect in upscali...
Rock surface geometry and rock fractures are important initial data for rock engineering and mining ...
The surface roughness of the joints affects their hydraulic and mechanical behavior. There are vario...
Aim of this paper is the description of a methodology purposely developed to study brittle structure...
The accurate estimation of the mechanical properties of a rock joints is crucial in terms of safety ...
The estimation of the mechanical properties of a rock joints is crucial in terms of safety when it c...
Current approaches to rocky slope stability analysis require knowledge of the geometrical-structural...
An accurate understanding of jointed rock mass behavior is important in many applications ranging fr...
Rock quality designation (RQD) index, provides a general indication of rock mass quality and is wide...
Surface roughness of rock joint has always been the major consideration on the estimation of the she...
This paper presents a procedure on how photogrammetry by simple means can be used to create a joint ...
Advancements in technology have made it possible for acquisition and analysis of geological structur...
Structural defects such as joints or faults are inherent to almost any rock mass. In many situation...
NIOSH ground control safety research program at Spokane, Washington, is exploring applications of ph...
Funding Information: This work was made possible thanks to the funding provided by the State Nuclear...
The ability of engineers to design deep excavation into Earth’s surface has advanced significantly o...
Rock surface geometry and rock fractures are important initial data for rock engineering and mining ...
The surface roughness of the joints affects their hydraulic and mechanical behavior. There are vario...
Aim of this paper is the description of a methodology purposely developed to study brittle structure...
The accurate estimation of the mechanical properties of a rock joints is crucial in terms of safety ...
The estimation of the mechanical properties of a rock joints is crucial in terms of safety when it c...
Current approaches to rocky slope stability analysis require knowledge of the geometrical-structural...
An accurate understanding of jointed rock mass behavior is important in many applications ranging fr...
Rock quality designation (RQD) index, provides a general indication of rock mass quality and is wide...
Surface roughness of rock joint has always been the major consideration on the estimation of the she...
This paper presents a procedure on how photogrammetry by simple means can be used to create a joint ...
Advancements in technology have made it possible for acquisition and analysis of geological structur...
Structural defects such as joints or faults are inherent to almost any rock mass. In many situation...
NIOSH ground control safety research program at Spokane, Washington, is exploring applications of ph...
Funding Information: This work was made possible thanks to the funding provided by the State Nuclear...
The ability of engineers to design deep excavation into Earth’s surface has advanced significantly o...
Rock surface geometry and rock fractures are important initial data for rock engineering and mining ...
The surface roughness of the joints affects their hydraulic and mechanical behavior. There are vario...
Aim of this paper is the description of a methodology purposely developed to study brittle structure...