Citation Formats
A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA

S. Sarialioglu Et Al. , "A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA," OCEAN ENGINEERING , vol.217, 2020

Sarialioglu, S. Et Al. 2020. A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA. OCEAN ENGINEERING , vol.217 .

Sarialioglu, S., Ugurlu, O., AYDIN, M., Vardar, B., & Wang, J., (2020). A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA. OCEAN ENGINEERING , vol.217.

Sarialioglu, Songul Et Al. "A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA," OCEAN ENGINEERING , vol.217, 2020

Sarialioglu, Songul Et Al. "A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA." OCEAN ENGINEERING , vol.217, 2020

Sarialioglu, S. Et Al. (2020) . "A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA." OCEAN ENGINEERING , vol.217.

@article{article, author={Songul Sarialioglu Et Al. }, title={A hybrid model for human-factor analysis of engine-room fires on ships: HFACS-PV&FFTA}, journal={OCEAN ENGINEERING}, year=2020}