Türk, K. Et Al. 2023. Machine Learning Prediction of Residual Mechanical Strength of Hybrid-Fiber- Reinforced Self-consolidating Concrete Exposed to Elevated Temperature. FIRE TECHNOLOGY , vol.59, no.6 , 1-47.

Türk, K., Kına, C., Tanyıldızı, H., & Nehdi, M. L., (2023). Machine Learning Prediction of Residual Mechanical Strength of Hybrid-Fiber- Reinforced Self-consolidating Concrete Exposed to Elevated Temperature. FIRE TECHNOLOGY , vol.59, no.6, 1-47.

Türk, KAZIM Et Al. "Machine Learning Prediction of Residual Mechanical Strength of Hybrid-Fiber- Reinforced Self-consolidating Concrete Exposed to Elevated Temperature," FIRE TECHNOLOGY , vol.59, no.6, 1-47, 2023

Türk, KAZIM Et Al. "Machine Learning Prediction of Residual Mechanical Strength of Hybrid-Fiber- Reinforced Self-consolidating Concrete Exposed to Elevated Temperature." FIRE TECHNOLOGY , vol.59, no.6, pp.1-47, 2023

Türk, K. Et Al. (2023) . "Machine Learning Prediction of Residual Mechanical Strength of Hybrid-Fiber- Reinforced Self-consolidating Concrete Exposed to Elevated Temperature." FIRE TECHNOLOGY , vol.59, no.6, pp.1-47.

@article{article, author={KAZIM TÜRK Et Al. }, title={Machine Learning Prediction of Residual Mechanical Strength of Hybrid-Fiber- Reinforced Self-consolidating Concrete Exposed to Elevated Temperature}, journal={FIRE TECHNOLOGY}, year=2023, pages={1-47} }