 | Monter d'un niveau |
Ben Ftima, M., & Massicotte, B. (2015). Utilization of nonlinear finite elements for the design and assessment of large concrete structures. I: Calibration and validation. Journal of Structural Engineering (United States), 141(9), 12 pages. Lien externe
Ben Ftima, M., & Massicotte, B. (2015). Utilization of nonlinear finite elements for the design and assessment of large concrete structures. II: Applications. Journal of Structural Engineering (United States), 141(9), 9 pages. Lien externe
Charron, J.-P., Lachance, F., & Massicotte, B. (juin 2015). Bending behavior of precast bridge slabs in UHPFRC under static and cyclic loadings [Communication écrite]. 7th RILEM workshop on High performance fiber reinforced cement composites, Stuttgart, Germany (10 pages). Lien externe
Charron, J.-P., Lachance, F., & Massicotte, B. (mai 2015). Dalles préfabriquées en bétons fibrés à hautes et ultra-hautes performances pour les ponts [Communication écrite]. 20e colloque des ponts sur la progression de la recherche québécoise sur les ouvrages d'art, Québec, Canada. Non disponible
Dagenais, M. A., & Massicotte, B. (2015). Tension Lap Splices Strengthened with Ultrahigh-Performance Fiber-Reinforced Concrete. Journal of Materials in Civil Engineering, 27(7), 10 pages. Lien externe
Lagier, F., Massicotte, B., & Charron, J.-P. (2015). Bond strength of tension lap splice specimens in UHPFRC. Construction and Building Materials, 93, 84-94. Lien externe
Namy, M., Charron, J.-P., & Massicotte, B. (2015). Structural Behavior of Bridge Decks with Cast-in-Place and Precast Concrete Barriers: Numerical Modeling. Journal of Bridge Engineering, 20(12), 04015014-04015014. Lien externe
Namy, M., Charron, J.-P., & Massicotte, B. (2015). Structural behavior of cast-in-place and precast concrete barriers subjected to transverse static loading and anchored to bridge deck overhangs. Canadian Journal of Civil Engineering, 42(2), 120-129. Lien externe
Nour, A., Massicotte, B., De Montaignac, R., & Charron, J.-P. (2015). Development of an inverse analysis procedure for the characterisation of softening diagrams for FRC beams and panels. Construction and Building Materials, 94, 35-44. Lien externe
