OCAK, C. Et Al. 2017. FEA-Based Design Improvement of Small Scale BLDCMs Considering Magnet Thickness and Pole Embrace. International Journal of Computing, Communication and Instrumentation Engineering , vol.4, no.2 , 31-35.

OCAK, C., DALCALI, A., ÇELİK, E., & Uygun, D., (2017). FEA-Based Design Improvement of Small Scale BLDCMs Considering Magnet Thickness and Pole Embrace. International Journal of Computing, Communication and Instrumentation Engineering , vol.4, no.2, 31-35.

OCAK, CEMİL Et Al. "FEA-Based Design Improvement of Small Scale BLDCMs Considering Magnet Thickness and Pole Embrace," International Journal of Computing, Communication and Instrumentation Engineering , vol.4, no.2, 31-35, 2017

OCAK, CEMİL Et Al. "FEA-Based Design Improvement of Small Scale BLDCMs Considering Magnet Thickness and Pole Embrace." International Journal of Computing, Communication and Instrumentation Engineering , vol.4, no.2, pp.31-35, 2017

OCAK, C. Et Al. (2017) . "FEA-Based Design Improvement of Small Scale BLDCMs Considering Magnet Thickness and Pole Embrace." International Journal of Computing, Communication and Instrumentation Engineering , vol.4, no.2, pp.31-35.

@article{article, author={CEMİL OCAK Et Al. }, title={FEA-Based Design Improvement of Small Scale BLDCMs Considering Magnet Thickness and Pole Embrace}, journal={International Journal of Computing, Communication and Instrumentation Engineering}, year=2017, pages={31-35} }