Guler, S. Et Al. 2024. Enhanced freeze-thaw resilience of cement mortars through Nano-SiO 2 and single/hybrid basalt fiber incorporation: Assessing workability, strength, durability. JOURNAL OF BUILDING ENGINEERING , vol.89 , 1-20.

Guler, S., Akbulut, Z., Siad, H., & Lachemi, M., (2024). Enhanced freeze-thaw resilience of cement mortars through Nano-SiO 2 and single/hybrid basalt fiber incorporation: Assessing workability, strength, durability. JOURNAL OF BUILDING ENGINEERING , vol.89, 1-20.

Guler, Soner Et Al. "Enhanced freeze-thaw resilience of cement mortars through Nano-SiO 2 and single/hybrid basalt fiber incorporation: Assessing workability, strength, durability," JOURNAL OF BUILDING ENGINEERING , vol.89, 1-20, 2024

Guler, Soner Et Al. "Enhanced freeze-thaw resilience of cement mortars through Nano-SiO 2 and single/hybrid basalt fiber incorporation: Assessing workability, strength, durability." JOURNAL OF BUILDING ENGINEERING , vol.89, pp.1-20, 2024

Guler, S. Et Al. (2024) . "Enhanced freeze-thaw resilience of cement mortars through Nano-SiO 2 and single/hybrid basalt fiber incorporation: Assessing workability, strength, durability." JOURNAL OF BUILDING ENGINEERING , vol.89, pp.1-20.

@article{article, author={Soner Güler Et Al. }, title={Enhanced freeze-thaw resilience of cement mortars through Nano-SiO 2 and single/hybrid basalt fiber incorporation: Assessing workability, strength, durability}, journal={JOURNAL OF BUILDING ENGINEERING}, year=2024, pages={1-20} }