Add to ORKGnone2noIn crystalline rocks, micro-cracks play a key role in determining the rock’s mechanical response under loading conditions. The present research suggests an innovative multiscale approach in rock material characterization to correlate the rock behavior at the scale of the laboratory sample to the cracking observed at the micro-cracks scale (nano and micro scale). The rock under investigation, a marble, exhibits two textures (granoblastic and xenoblastic), differing in micro-cracks porosity, mainly extending along the grains contacts. The investigated marble’s behavior under states of stress was investigated involving portions of the rock’s sample varying in size from nano to micro and macro-scale through also innovative techniques in ...
This study presents a framework for numerical simulations based upon micromechanical parameters in m...
To understand the deformation and fracture behavior of rock, it is useful to observe the variation o...
The mechanical response of geomaterials is highly influenced by geometrical and material heterogenei...
The paper examines the cracks initiation, propagation and coalescence until failure in a crystalline...
The study on the mechanisms affecting the strength and the elastic modulus of a crystalline rock has...
This research focuses on the micro-mechanical and micro-structural aspects of strength variation in ...
Indentation tests have been carried out on a marble in order to define the role of the intra-grain m...
The research work was aimed at studying, with a deterministic approach, the relationships between th...
Microscale heterogeneities influence failure mechanisms in the crust. To track the microstructural c...
Indentation tests have been carried out on a marble in order to define the role of the intra-grain m...
This dataset contains the raw results of nanoindentation testing, which are used to determine the el...
After an introduction describing the indentation techniques traditionally applied to the study of mi...
Crack evolution in a rock depends on the mineralogy, microstructure and fabric of specific rock type...
The evolution of micro-cracks in rocks under different strain rates is of great importance for a bet...
International audienceMicrocracks can affect the mechanical properties of rocks, such as their stiff...
This study presents a framework for numerical simulations based upon micromechanical parameters in m...
To understand the deformation and fracture behavior of rock, it is useful to observe the variation o...
The mechanical response of geomaterials is highly influenced by geometrical and material heterogenei...
The paper examines the cracks initiation, propagation and coalescence until failure in a crystalline...
The study on the mechanisms affecting the strength and the elastic modulus of a crystalline rock has...
This research focuses on the micro-mechanical and micro-structural aspects of strength variation in ...
Indentation tests have been carried out on a marble in order to define the role of the intra-grain m...
The research work was aimed at studying, with a deterministic approach, the relationships between th...
Microscale heterogeneities influence failure mechanisms in the crust. To track the microstructural c...
Indentation tests have been carried out on a marble in order to define the role of the intra-grain m...
This dataset contains the raw results of nanoindentation testing, which are used to determine the el...
After an introduction describing the indentation techniques traditionally applied to the study of mi...
Crack evolution in a rock depends on the mineralogy, microstructure and fabric of specific rock type...
The evolution of micro-cracks in rocks under different strain rates is of great importance for a bet...
International audienceMicrocracks can affect the mechanical properties of rocks, such as their stiff...
This study presents a framework for numerical simulations based upon micromechanical parameters in m...
To understand the deformation and fracture behavior of rock, it is useful to observe the variation o...
The mechanical response of geomaterials is highly influenced by geometrical and material heterogenei...