 | Monter d'un niveau |
Afifi, M., Tremblay, R., & Rogers, C. A. (2022). Numerical & experimental investigation of slotted-hidden-gap connection for square HSS brace members. Journal of Constructional Steel Research, 192, 107234 (17 pages). Lien externe
Assily Alegre, M.-A., & Tremblay, R. (2022). Finite element analysis of flexural response of steel joist top chord extensions. Journal of Constructional Steel Research, 190, 18 pages. Lien externe
Comeau, C., Cano, P., Imanpour, A., & Tremblay, R. (mai 2022). Seismic Behaviour and Design of Chevron Multitiered Concentrically Braced Frames [Communication écrite]. 10th International Conference on the Behaviour of Steel Structures in Seismic Areas (STESSA 2022), Timisoara, Romania. Lien externe
Comeau, C., Cano, P., Tremblay, R., & Imanpour, A. (mai 2022). Seismic Response of Two-Bay Steel Multi-Tiered Concentrically Braced Frames [Communication écrite]. 10th International Conference on the Behaviour of Steel Structures in Seismic Areas (STESSA 2022), Timisoara, Romania. Lien externe
González Ureña, A., Tremblay, R., & Rogers, C. A. (2022). Experimental and numerical study of square HSS BIEs under cyclic loading. Engineering Structures, 252, 20 pages. Lien externe
Hariri, B., & Tremblay, R. (mai 2022). Effective Steel Braced Frames for Tall Building Applications in High Seismic Regions [Communication écrite]. 10th International Conference on the Behaviour of Steel Structures in Seismic Areas (STESSA 2022), Timisoara, Romania. Lien externe
Imanpour, A., Tremblay, R., Leclerc, M., Siguier, R., Toutant, G., Balazadeh Minouei, Y., & You, S. (2022). Development and application of multi-axis hybrid simulation for seismic stability of steel braced frames. Engineering Structures, 252, 12 pages. Lien externe
Rahmzadeh, A., Alam, M. S., & Tremblay, R. (mai 2021). Characterization of the Lateral Response of Base Rocking Steel Bridge Piers [Communication écrite]. CSCE annual Conference 2021. Lien externe
Rahmzadeh, A., Tremblay, R., & Alam, M. S. (2022). Finite-element simulation of the lateral response of posttensioned base rocking steel bridge piers. Journal of Structural Engineering, 148(9), 18 pages. Lien externe
Wakjira, T. G., Rahmzadeh, A., Alam, M. S., & Tremblay, R. (2022). Explainable machine learning based efficient prediction tool for lateral cyclic response of post-tensioned base rocking steel bridge piers. Structures, 44, 947-964. Lien externe
