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Bouaanani, N., & Renaud, S. (2014). Effects of fluid-structure interaction modeling assumptions on seismic floor acceleration demands within gravity dams. Journal of Engineering Structures, 67, 1-18. External link
Renaud, S., Bouaanani, N., & Miquel, B. (2021). Experimental, analytical, and finite element assessment of the shear strength of concrete-rock interfaces at different scales. International Journal for Numerical and Analytical Methods in Geomechanics, 45(9), 1238-1259. External link
Renaud, S. (2020). Développement de méthodes multi-échelles pour évaluer la réponse en cisaillement d'interfaces barrage-fondation [Ph.D. thesis, Polytechnique Montréal]. Available
Renaud, S., Bouaanani, N., & Miquel, B. (2020). Numerical simulation of experimentally shear-tested contact specimens from existing dam joints. Computers and Geotechnics, 125, 19 pages. External link
Renaud, S., Saichi, T., Bouaanani, N., Miquel, B., Quirion, M., & Rivard, P. (2019). Roughness Effects on the Shear Strength of Concrete and Rock Joints in Dams Based on Experimental Data. Rock Mechanics and Rock Engineering, 52(10), 3867-3888. External link
Renaud, S., Bouaanani, N., & Miquel, B. (2016). Critical Appraisal of Common Simplified Assumptions in Seismic Stability Analyses of Gravity Dams. Journal of Performance of Constructed Facilities, 30(5), 13 pages. External link
Renaud, S. (2013). Analyses sismiques des barrages-poids: effets de l'irrégularité de l'interface barrage-fondation sur la stabilité au glissement et de l'interaction fluide-structure sur l'amplification dynamique [Master's thesis, École Polytechnique de Montréal]. Available
Saichi, T., Renaud, S., & Bouaanani, N. (2022). A progressive approach to account for large-scale roughness of concrete-rock interface in practical stability analyses for dam safety evaluation. International Journal of Geomechanics, 22(8), 04022128 (14 pages). External link
Saichi, T., Renaud, S., Bouaanani, N., & Miquel, B. (2019). Effects of Rock Foundation Roughness on the Sliding Stability of Concrete Gravity Dams Based on Topographic Surveys. Journal of Engineering Mechanics, 145(7), 15 pages. External link
