AbdElFattah, I.; Ahmad, S.S.E.; Elakhras, A.A.; Elshami, A.A.; Elmahdy, M.A.R.; Aboubakr, A.
Bio-Mitigation of Sulfate Attack and Enhancement of Crack Self-Healing in Sustainable Concrete Using Bacillus megaterium and sphaericus Bacteria. Infrastructures 2025, 10, 205.
https://doi.org/10.3390/infrastructures10080205
AMA Style
AbdElFattah I, Ahmad SSE, Elakhras AA, Elshami AA, Elmahdy MAR, Aboubakr A.
Bio-Mitigation of Sulfate Attack and Enhancement of Crack Self-Healing in Sustainable Concrete Using Bacillus megaterium and sphaericus Bacteria. Infrastructures. 2025; 10(8):205.
https://doi.org/10.3390/infrastructures10080205
Chicago/Turabian Style
AbdElFattah, Ibrahim, Seleem S. E. Ahmad, Ahmed A. Elakhras, Ahmed A. Elshami, Mohamed A. R. Elmahdy, and Attitou Aboubakr.
2025. "Bio-Mitigation of Sulfate Attack and Enhancement of Crack Self-Healing in Sustainable Concrete Using Bacillus megaterium and sphaericus Bacteria" Infrastructures 10, no. 8: 205.
https://doi.org/10.3390/infrastructures10080205
APA Style
AbdElFattah, I., Ahmad, S. S. E., Elakhras, A. A., Elshami, A. A., Elmahdy, M. A. R., & Aboubakr, A.
(2025). Bio-Mitigation of Sulfate Attack and Enhancement of Crack Self-Healing in Sustainable Concrete Using Bacillus megaterium and sphaericus Bacteria. Infrastructures, 10(8), 205.
https://doi.org/10.3390/infrastructures10080205
