Khan, S. A. Et Al. 2024. The impact of nozzle diameter and printing speed on geopolymer-based 3D-Printed concrete structures: Numerical modeling and experimental validation. Results in Engineering , vol.21 .

Khan, S. A., İLCAN, H., Imran, R., Aminipour, E., ŞAHİN, O., Al Rashid, A., ... ŞAHMARAN, M.(2024). The impact of nozzle diameter and printing speed on geopolymer-based 3D-Printed concrete structures: Numerical modeling and experimental validation. Results in Engineering , vol.21.

Khan, Shoukat Et Al. "The impact of nozzle diameter and printing speed on geopolymer-based 3D-Printed concrete structures: Numerical modeling and experimental validation," Results in Engineering , vol.21, 2024

Khan, Shoukat A. Et Al. "The impact of nozzle diameter and printing speed on geopolymer-based 3D-Printed concrete structures: Numerical modeling and experimental validation." Results in Engineering , vol.21, 2024

Khan, S. A. Et Al. (2024) . "The impact of nozzle diameter and printing speed on geopolymer-based 3D-Printed concrete structures: Numerical modeling and experimental validation." Results in Engineering , vol.21.

@article{article, author={Shoukat Alim Khan Et Al. }, title={The impact of nozzle diameter and printing speed on geopolymer-based 3D-Printed concrete structures: Numerical modeling and experimental validation}, journal={Results in Engineering}, year=2024}