Vincent Labiouse






Filière GC

Edité le 29 septembre 2017   


Articles de revues à comité de lecture et Chapitres de livres                1   ¦   2   ¦   3   ¦   4

F. Sandrone and V. Labiouse. A GIS based approach for analysing geological and operation conditions influence on road tunnels degradation, in Tunnelling and Underground Space Technology, vol. 66, p. 174-185, 2017.
N. Lafrance, C. Auvray, M. Souley and V. Labiouse. Impact of weathering on macro-mechanical properties of chalk: Local pillar-scale study of two underground quarries in the Paris Basin, in Engineering Geology, vol. 213, p. 107-119, 2016.
F. Rojat, V. Labiouse and P. Mestat. Improved analytical solutions for the response of underground excavations in rock masses satisfying the generalized Hoek-Brown failure criterion, in International Journal Of Rock Mechanics And Mining Sciences, vol. 79, p. 193-204, 2015.
C. Sauthier, M. Pirulli, G. Pisani, C. Scavia and V. Labiouse. Numerical modelling of gravel unconstrained flow experiments with the DAN(3D) and RASH(3D) codes: A, in Computers and Geosciences, vol. 85, p. 81-90, 2015.
S. You, H. Ji, V. Labiouse, S. A. Hall and G. Viggiani. Quantitative analysis of deformation in hollow cylinder tests on anisotropic clay formations, in International Journal of Mining Science and Technology, vol. 25, num. 2, p. 299–303, 2015.
J. M. Abbruzzese and V. Labiouse. New Cadanav methodology for quantitative rock fall hazard assessment and zoning at the local scale, in Landslides, vol. 11, num. 4, p. 551-564, 2014.
V. Labiouse, C. Sauthier and S. You. Hollow cylinder simulation experiments of galleries in Boom Clay formation, in Rock Mechanics and Rock Engineering, vol. 47, num. 1, p. 43–55, 2014.
V. Labiouse and T. Vietor. Laboratory and in situ simulation tests of the Excavation Damaged Zone around galleries in Opalinus Clay, in Rock Mechanics and Rock Engineering, vol. 47, num. 1, p. 57–70, 2014.
B. François, V. Labiouse, A. Dizier, F. Marinelli, R. Charlier and F. Collin. Hollow Cylinder Tests on Boom Clay: Modelling of Strain Localization in the Anisotropic Excavation Damaged Zone, in Rock Mechanics and Rock Engineering, vol. 47, num. 1, p. 71–86, 2014.