Add to ORKGThe Opalinus Clay is a potential host rock for radioactive waste repositories. Triaxial tests at different load levels and directions carried out on Opalinus clay showed that the mechanical behaviour of this soft rock is anisotropic. The stiffer samples are those where the loading direction is parallel to the bedding plane so that the preconsolidation stress depends on the orientation of the loading with respect to material structure. It is proposed to interpret those features with an elasto-plastic model based on four mechanisms of plasticity which are alternately mobilized depending on the direction of loading. The predicted stress-strain response is of different nature for different directions of the space, because the hardening process ...
An anisotropic elastoplastic model for soft clays is presented. Experimental data from multistage dr...
The fracturing process in geomaterials is studied to characterize a potential host rock for radioact...
The mechanical properties of Opalinus Clay shale are strongly affected by the mineralogical composit...
This paper aims to analyse the anisotropic features of behaviour of Opalinus Clay using the theory o...
Deep repository in geological formations is the preferential solution considered by many countries t...
This paper investigates the anisotropic hydro-mechanical behaviour of Opalinus Clay shale, the host ...
Many studies have recently been conducted to evaluate various mechanical characteristics of the Opal...
Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch
Clay shales are currently being assessed as possible host rock formations for the deep geological di...
Natural clays exhibit a significant degree of anisotropy in their fabric, which initially is derived...
A specimen of Opalinus clay from Mont Terri has been subjected to stress testing over a period of 53...
Anisotropy of shales is the subject of this report, and we use an example of the Jurassic Opalinus C...
Opalinus Clay is the designated host rock for a deep geological repository of radioactive waste in S...
Opalinus Clay is the shale currently under investigation as the host formation for geological radioa...
The Opalinus Clay shale formation is considered as a potential host geomaterial for the Swiss deep g...
An anisotropic elastoplastic model for soft clays is presented. Experimental data from multistage dr...
The fracturing process in geomaterials is studied to characterize a potential host rock for radioact...
The mechanical properties of Opalinus Clay shale are strongly affected by the mineralogical composit...
This paper aims to analyse the anisotropic features of behaviour of Opalinus Clay using the theory o...
Deep repository in geological formations is the preferential solution considered by many countries t...
This paper investigates the anisotropic hydro-mechanical behaviour of Opalinus Clay shale, the host ...
Many studies have recently been conducted to evaluate various mechanical characteristics of the Opal...
Erworben im Rahmen der Schweizer Nationallizenzen (http://www.nationallizenzen.ch
Clay shales are currently being assessed as possible host rock formations for the deep geological di...
Natural clays exhibit a significant degree of anisotropy in their fabric, which initially is derived...
A specimen of Opalinus clay from Mont Terri has been subjected to stress testing over a period of 53...
Anisotropy of shales is the subject of this report, and we use an example of the Jurassic Opalinus C...
Opalinus Clay is the designated host rock for a deep geological repository of radioactive waste in S...
Opalinus Clay is the shale currently under investigation as the host formation for geological radioa...
The Opalinus Clay shale formation is considered as a potential host geomaterial for the Swiss deep g...
An anisotropic elastoplastic model for soft clays is presented. Experimental data from multistage dr...
The fracturing process in geomaterials is studied to characterize a potential host rock for radioact...
The mechanical properties of Opalinus Clay shale are strongly affected by the mineralogical composit...