Dalhat, M.A. 2025. Deep Neural Network modeling and analysis of the laboratory compaction parameter of unbound granular materials. Measurement: Journal of the International Measurement Confederation, 244, 116488.
Dalhat, M.A. 2024. Improving hydrophobicity of asphalt surfaces using pulverized recycled polyethylene terephthalate: Towards efficient roofing/waterproofing. Materials Today Communications, 39, 109166.
Dalhat, M.A. 2024. Modeling and prediction of surface free energy of pavement materials based on a single probe liquid using artificial neural network. Surfaces and Interfaces, 46, 104107.
Dalhat, M.A., Osman, S.A. 2024. Artificial Neural Network Modeling of Theoretical Maximum Specific Gravity for Asphalt Concrete Mix. International Journal of Pavement Research and Technology, 17(2), pp. 406–422.
Muhammad Butt, F., Dalhat, M.A., Shahid Minhas, K., Al-mojil, A. 2024. Influence of seat belt use behavior and road traffic crash experience on the use of child restraint systems: A step further. Journal of King Saud University - Engineering Sciences, 36(1), pp. 9–18.
Alshehri, H.A., Al Abdul Wahhab, H.I., Dalhat, M.A., Al-Juhani, A.-H.A., Al-Osta, M.A. 2023. Recycled polyethylene waste as binder stabilizer for SMA mix in gulf environment. Case Studies in Construction Materials, 18, e02177.
Dalhat, M.A., Al-Adham, K. 2023. Review on laboratory preparation processes of polymer modified asphalt binder. Journal of Traffic and Transportation Engineering (English Edition), 10(2), pp. 159–184.
Dalhat, M.A., Osman, S.A. 2023. Studying the impact of aggregates and mix volumetric properties on the moisture resistance of asphalt concrete using a feed-forward artificial neural network. Road Materials and Pavement Design, 24(11), pp. 2737–2758.
Osman, S.A., Almoshaogeh, M., Jamal, A., Al Mojil, A., Dalhat, M.A. 2023. Intelligent Assessment of Pavement Condition Indices Using Artificial Neural Networks. Sustainability (Switzerland), 15(1), 561.
Islam, M.K., Dalhat, M.A., Al Mamun, A. 2022. Road Infrastructure Investment Limits Based on Minimal Accidents Using Artificial Neural Network. Applied Sciences (Switzerland), 12(23), 11949.
