ÖZÇOBAN, M. Ş. Et Al. 2022. Modelling the Effects of Nanomaterial Addition on the Permeability of the Compacted Clay Soil Using Machine Learning-Based Flow Resistance Analysis. APPLIED SCIENCES-BASEL , vol.12, no.1 .

ÖZÇOBAN, M. Ş., İSENKUL, M. E., SEVGEN, S., Acarer, S., & Tufekci, M., (2022). Modelling the Effects of Nanomaterial Addition on the Permeability of the Compacted Clay Soil Using Machine Learning-Based Flow Resistance Analysis. APPLIED SCIENCES-BASEL , vol.12, no.1.

ÖZÇOBAN, Mehmet Et Al. "Modelling the Effects of Nanomaterial Addition on the Permeability of the Compacted Clay Soil Using Machine Learning-Based Flow Resistance Analysis," APPLIED SCIENCES-BASEL , vol.12, no.1, 2022

ÖZÇOBAN, Mehmet Ş. Et Al. "Modelling the Effects of Nanomaterial Addition on the Permeability of the Compacted Clay Soil Using Machine Learning-Based Flow Resistance Analysis." APPLIED SCIENCES-BASEL , vol.12, no.1, 2022

ÖZÇOBAN, M. Ş. Et Al. (2022) . "Modelling the Effects of Nanomaterial Addition on the Permeability of the Compacted Clay Soil Using Machine Learning-Based Flow Resistance Analysis." APPLIED SCIENCES-BASEL , vol.12, no.1.

@article{article, author={Mehmet Şükrü ÖZÇOBAN Et Al. }, title={Modelling the Effects of Nanomaterial Addition on the Permeability of the Compacted Clay Soil Using Machine Learning-Based Flow Resistance Analysis}, journal={APPLIED SCIENCES-BASEL}, year=2022}