Add to ORKGInternational audienceBoom Clay is considered to be a potential host formation for a geological repository of radioactive waste in Belgium. In this context, a thorough understanding of its mechanical behaviour is thus important. In this study, the anisotropy of the shear modulus of natural Boom Clay samples was investigated using the bender element method. Seven samples located at different distances from the connecting gallery of the HADES underground research laboratory were tested for shearing in three different directions with respect to the bedding plane. The results obtained confirm the mechanical anisotropy of Boom Clay. Furthermore, the values of small-strain shear modulus in the near field of the gallery were found to be lower than...
The stiffness of a soil is of great importance in many areas of geotechnical engineering. It forms t...
The small strain stiffness anisotropy of saprolitic soils is less investigated as compared with othe...
Recent advances in laboratory testing techniques enable accurate measurement of shear wave velocity ...
International audienceBoom Clay has been considered as a potential host-rock for the geological radi...
Boom Clay is extensively studied as a potential candidate to host underground nuclear waste disposal...
Boom Clay is extensively studied as a potential candidate to host underground nuclear waste disposal...
In this study, to examine the effect of the fabric anisotropy on elastic moduli (shear and Young's m...
Measurements of small-strain stiffness are widely used for predicting ground movements in many devel...
International audienceAn Underground Research Laboratory (URL) has been constructed in the deposit o...
Stiffness anisotropy at small strains is a distinctive feature of many natural soils. The nature of ...
In the program of deep geological radioactive waste disposal in Belgium, Boom Clay has been chosen a...
Although a large number of tunnels and deep excavations have been constructed in Shanghai, small-str...
The shear modulus G(0) at very small strain (0.001\% or less) is an important parameter for predicti...
Deep disposal of the high-level and high-lived radioactive wastes in the potential geological format...
A series of triaxial laboratory experiments are performed on thick-walled hollow cylindrical samples...
The stiffness of a soil is of great importance in many areas of geotechnical engineering. It forms t...
The small strain stiffness anisotropy of saprolitic soils is less investigated as compared with othe...
Recent advances in laboratory testing techniques enable accurate measurement of shear wave velocity ...
International audienceBoom Clay has been considered as a potential host-rock for the geological radi...
Boom Clay is extensively studied as a potential candidate to host underground nuclear waste disposal...
Boom Clay is extensively studied as a potential candidate to host underground nuclear waste disposal...
In this study, to examine the effect of the fabric anisotropy on elastic moduli (shear and Young's m...
Measurements of small-strain stiffness are widely used for predicting ground movements in many devel...
International audienceAn Underground Research Laboratory (URL) has been constructed in the deposit o...
Stiffness anisotropy at small strains is a distinctive feature of many natural soils. The nature of ...
In the program of deep geological radioactive waste disposal in Belgium, Boom Clay has been chosen a...
Although a large number of tunnels and deep excavations have been constructed in Shanghai, small-str...
The shear modulus G(0) at very small strain (0.001\% or less) is an important parameter for predicti...
Deep disposal of the high-level and high-lived radioactive wastes in the potential geological format...
A series of triaxial laboratory experiments are performed on thick-walled hollow cylindrical samples...
The stiffness of a soil is of great importance in many areas of geotechnical engineering. It forms t...
The small strain stiffness anisotropy of saprolitic soils is less investigated as compared with othe...
Recent advances in laboratory testing techniques enable accurate measurement of shear wave velocity ...