Documents dont l'auteur est "Alam, M. Shahria"

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2024

Islam, K., Tremblay, R., & Alam, M. S. (mai 2023). Compressive Strength of Rocking Steel Bridge Pier upon Rocking [Communication écrite]. Canadian Society of Civil Engineering Annual Conference, Moncton, NB, Canada. Lien externe

Hossain, F., Rahmzadeh, A., Tremblay, R., & Alam, M. S. (2024). Multi-spring model for tubular rocking steel bridge piers subjected to earthquake loading. Engineering Structures, 315, 118449 (17 pages). Lien externe

Alam, M. S., Hasan, G. M. J., Billah, A. H. M., & Islam, K. (2024). Proceedings of the 2nd International Conference on Advanced in Civil Infrastructure and Construction Materials (CICM 2023). Lien externe

Saifuzzaman, M., Islam, K., Alam, M. S., & Tremblay, R. (juillet 2023). Vibration Analysis of Light Rail Transit (LRT) Bridge Supported on Rocking Pier(s) and Isolated Abutments [Communication écrite]. 2nd International Conference on Advances in Civil Infrastructure and Construction Materials (CICM 2023), Dhaka, Bangladesh. Lien externe

2023

Rahmzadeh, A., Alam, M. S., & Tremblay, R. (2023). 3D response simulation of a bridge with a posttensioned base rocking steel pier under sequential loading of traffic loads, braking force, and earthquake excitations. Earthquake Engineering & Structural Dynamics, 52(9), 2830-2851. Lien externe

Rahmzadeh, A., Alam, M. S., & Tremblay, R. (2023). Cyclic Response of Buckling-Restrained Stainless Steel Energy Dissipating Bars. I: Experimental Investigations. Journal of Engineering Mechanics, 149(4), 14 pages. Lien externe

Rahmzadeh, A., Tremblay, R., & Alam, M. S. (2023). Cyclic Response of Buckling-Restrained Stainless Steel Energy Dissipating Bars. II: Finite Element Investigations. Journal of Engineering Mechanics, 149(4), 12 pages. Lien externe

Shahjalal, M., Islam, K., Batool, F., Tiznobaik, M., Zahid Hossain, F. M., Sakil Ahmed, K., Alam, M. S., & Ahsan, R. (2023). Fiber-reinforced recycled aggregate concrete with crumb rubber: A state-of-the-art review. Construction and Building Materials, 404, 133233 (37 pages). Lien externe

Karim, M. R., Islam, K., Billah, A. H. M., & Alam, M. S. (mai 2022). Machine Learning Driven Shear Strength Prediction Model for FRP-Reinforced Concrete Beams [Communication écrite]. Canadian Society of Civil Engineering Annual Conference, Whistler, BC, Canada. Lien externe

Karim, M. R., Islam, K., Billah, A. H. M. M., & Alam, M. S. (2023). Shear Strength Prediction of Slender Concrete Beams Reinforced with FRP Rebar Using Data-Driven Machine Learning Algorithms. Journal of Composites for Construction, 27(2), 18 pages. Lien externe

2022

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

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

2021

Rahmzadeh, A., Alam, M. S., & Tremblay, R. (2021). Experimental Investigations on the Lateral Cyclic Response of Post-Tensioned Rocking Steel Bridge Piers. Journal of Structural Engineering, 147(12), 18 pages. Lien externe

2020

Alam, M. S., Tremblay, R., Islam, K., Rahmzadeh, A., Hossain, F., & King, P. (septembre 2020). Use of rocking steel piers for enhanced seismic performance of bridges [Communication écrite]. 17th world Conference on Earthquake Engineering (17WCEE), Sendai, Japan (12 pages). Non disponible

2019

Hossain, F. M. Z., Shahjalal, M., Islam, K., Tiznobaik, M., & Alam, M. S. (2019). Mechanical properties of recycled aggregate concrete containing crumb rubber and polypropylene fiber. Construction and Building Materials, 225, 983-996. Lien externe

2018

Rahmzadeh, A., Alam, M. S., & Tremblay, R. (2018). Analytical Prediction and Finite-Element Simulation of the Lateral Response of Rocking Steel Bridge Piers with Energy-Dissipating Steel Bars. Journal of Structural Engineering (United States), 144(11), 15 pages. Lien externe