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Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack
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H. Tanyildizi Et Al. , "Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack," Structural Concrete , 2025

Tanyildizi, H. Et Al. 2025. Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack. Structural Concrete .

Tanyildizi, H., Ziada, M., UYSAL, M., & Coşkun, A., (2025). Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack. Structural Concrete .

Tanyildizi, Harun Et Al. "Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack," Structural Concrete , 2025

Tanyildizi, Harun Et Al. "Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack." Structural Concrete , 2025

Tanyildizi, H. Et Al. (2025) . "Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack." Structural Concrete .

@article{article, author={Harun Tanyildizi Et Al. }, title={Comparison of bacteria-based autonomous and autogenous healing performances of geopolymer mortar exposed to sulfate attack}, journal={Structural Concrete}, year=2025}