F. Erol Et Al. , "Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars," Materials Chemistry and Physics , vol.309, 2023
Erol, F. Et Al. 2023. Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars. Materials Chemistry and Physics , vol.309 .
Erol, F., Al-mashhadani, M. M., AYGÖRMEZ, Y., & NİŞ, A., (2023). Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars. Materials Chemistry and Physics , vol.309.
Erol, Ferhat Et Al. "Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars," Materials Chemistry and Physics , vol.309, 2023
Erol, Ferhat Et Al. "Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars." Materials Chemistry and Physics , vol.309, 2023
Erol, F. Et Al. (2023) . "Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars." Materials Chemistry and Physics , vol.309.
@article{article, author={Ferhat Erol Et Al. }, title={Effect of ceramic waste powder content and sodium hydroxide molarity on the residual mechanical strength of alkali-activated mortars}, journal={Materials Chemistry and Physics}, year=2023}