Başlık: Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance

Z. F. Akbulut And S. Guler, "Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance," JOURNAL OF BUILDING ENGINEERING , vol.98, pp.1-21, 2024

Akbulut, Z. F. And Guler, S. 2024. Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance. JOURNAL OF BUILDING ENGINEERING , vol.98 , 1-21.

Akbulut, Z. F., & Guler, S., (2024). Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance. JOURNAL OF BUILDING ENGINEERING , vol.98, 1-21.

Akbulut, ZEHRA, And Soner Guler. "Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance," JOURNAL OF BUILDING ENGINEERING , vol.98, 1-21, 2024

Akbulut, ZEHRA F. And Guler, Soner. "Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance." JOURNAL OF BUILDING ENGINEERING , vol.98, pp.1-21, 2024

Akbulut, Z. F. And Guler, S. (2024) . "Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance." JOURNAL OF BUILDING ENGINEERING , vol.98, pp.1-21.

@article{article, author={ZEHRA FUNDA AKBULUT And author={Soner Guler}, title={Enhancing the resilience of cement mortar: Investigating Nano-SiO2 size and hybrid fiber effects on sulfuric acid resistance}, journal={JOURNAL OF BUILDING ENGINEERING}, year=2024, pages={1-21} }

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