Alkhawaldeh, S.M.A. Enhancing flat slab design: machine learning and metaheuristic approaches to predict punching shear strength. Asian Journal of Civil Engineering 25(8), 2459-2469 (2024). https://doi.org/10.1007/s42107-023-00919-4

Alkhawaldeh, S.M.A. Hybrid RNN and metaheuristic approach for modeling and optimization of seismic behavior in thin-walled rectangular hollow bridge piers. Asian Journal of Civil Engineering 25(3), 2399-2413 (2024). https://doi.org/10.1007/s42107-023-00915-8

Alkhawaldeh, S. M. (2019) FE modelling of the bond-slip behaviour and its effects on the seismic performance of RC framed structures. Doctoral Thesis, Loughborough University, UK.

Alkhawaldeh, S., El-Rimawi, J. and Palmeri, A. ''Behaviour of reinforced concrete joints under cyclic and monotonic loads''. The institution of Structural Engineers, The 20th Young researchers' conference 2018, London, UK.

Alkhawaldeh, S., El-Rimawi, J. and Palmeri, A. ''Calibration of cohesive elements for modelling the bond between concrete and deformed reinforcement bars''. The Thirteenth International Conference on Computational Structures Technology 2018, Sitges, Spain.

Alkhawaldeh, S., El-Rimawi, J. and Palmeri, A. ''The use of cohesive elements to model the behaviour of reinforced concrete beam-to-column joints under monotonic loading''. The Thirteenth International Conference on Computational Structures Technology 2018, Sitges, Spain.

Alkhawaldeh, S. M. (2015) Evaluation of the fundamental natural periods of vibration for reinforced concrete moment resisting frame structures. Master Thesis, The University of Jordan, Jordan.