A. Mahpour Et Al. , "Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties," International Journal of Pavement Engineering , vol.24, no.2, 2022
Mahpour, A. Et Al. 2022. Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties. International Journal of Pavement Engineering , vol.24, no.2 .
Mahpour, A., Hashemi, M., Asadi, I., Yan, K., You, L., Maghfouri, M., ... Haerinia, B.(2022). Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties. International Journal of Pavement Engineering , vol.24, no.2.
Mahpour, Alireza Et Al. "Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties," International Journal of Pavement Engineering , vol.24, no.2, 2022
Mahpour, Alireza Et Al. "Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties." International Journal of Pavement Engineering , vol.24, no.2, 2022
Mahpour, A. Et Al. (2022) . "Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties." International Journal of Pavement Engineering , vol.24, no.2.
@article{article, author={Alireza Mahpour Et Al. }, title={Evaluation of the optimum value of lightweight expanded clay aggregate incorporation into the roller-compacted concrete pavement through experimental measurement of mechanical and thermal properties}, journal={International Journal of Pavement Engineering}, year=2022}