Katlav, M. Et Al. 2024. Electrical resistivity of eco-friendly hybrid fiber-reinforced SCC: Effect of ground granulated blast furnace slag and copper slag content as well as hooked-end fiber length. CONSTRUCTION AND BUILDING MATERIALS , vol.438 , 1-17.

Katlav, M., Dönmez, İ., & Türk, K., (2024). Electrical resistivity of eco-friendly hybrid fiber-reinforced SCC: Effect of ground granulated blast furnace slag and copper slag content as well as hooked-end fiber length. CONSTRUCTION AND BUILDING MATERIALS , vol.438, 1-17.

Katlav, Metin, İzzeddin Dönmez, And KAZIM TÜRK. "Electrical resistivity of eco-friendly hybrid fiber-reinforced SCC: Effect of ground granulated blast furnace slag and copper slag content as well as hooked-end fiber length," CONSTRUCTION AND BUILDING MATERIALS , vol.438, 1-17, 2024

Katlav, Metin Et Al. "Electrical resistivity of eco-friendly hybrid fiber-reinforced SCC: Effect of ground granulated blast furnace slag and copper slag content as well as hooked-end fiber length." CONSTRUCTION AND BUILDING MATERIALS , vol.438, pp.1-17, 2024

Katlav, M. Dönmez, İ. And Türk, K. (2024) . "Electrical resistivity of eco-friendly hybrid fiber-reinforced SCC: Effect of ground granulated blast furnace slag and copper slag content as well as hooked-end fiber length." CONSTRUCTION AND BUILDING MATERIALS , vol.438, pp.1-17.

@article{article, author={Metin Katlav Et Al. }, title={Electrical resistivity of eco-friendly hybrid fiber-reinforced SCC: Effect of ground granulated blast furnace slag and copper slag content as well as hooked-end fiber length}, journal={CONSTRUCTION AND BUILDING MATERIALS}, year=2024, pages={1-17} }