KAPLAN, G. Et Al. 2023. Improving the eco-efficiency of fiber reinforced composite by ultra-low cement content/high FA-GBFS addition for structural applications: Minimization of cost, CO2 emissions and embodied energy. Journal of Building Engineering , vol.76 .

KAPLAN, G., Bayraktar, O. Y., Li, Z., Bodur, B., Yılmazoglu, M. U., & Alcan, B. A., (2023). Improving the eco-efficiency of fiber reinforced composite by ultra-low cement content/high FA-GBFS addition for structural applications: Minimization of cost, CO2 emissions and embodied energy. Journal of Building Engineering , vol.76.

KAPLAN, Gökhan Et Al. "Improving the eco-efficiency of fiber reinforced composite by ultra-low cement content/high FA-GBFS addition for structural applications: Minimization of cost, CO2 emissions and embodied energy," Journal of Building Engineering , vol.76, 2023

KAPLAN, Gökhan Et Al. "Improving the eco-efficiency of fiber reinforced composite by ultra-low cement content/high FA-GBFS addition for structural applications: Minimization of cost, CO2 emissions and embodied energy." Journal of Building Engineering , vol.76, 2023

KAPLAN, G. Et Al. (2023) . "Improving the eco-efficiency of fiber reinforced composite by ultra-low cement content/high FA-GBFS addition for structural applications: Minimization of cost, CO2 emissions and embodied energy." Journal of Building Engineering , vol.76.

@article{article, author={Gökhan KAPLAN Et Al. }, title={Improving the eco-efficiency of fiber reinforced composite by ultra-low cement content/high FA-GBFS addition for structural applications: Minimization of cost, CO2 emissions and embodied energy}, journal={Journal of Building Engineering}, year=2023}