Atıf Formatları
Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure
  • IEEE
  • ACM
  • APA
  • Chicago
  • MLA
  • Harvard
  • BibTeX

C. A. ŞAHİN And M. Karacor, "Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure," Electrical Engineering , vol.104, no.3, pp.1527-1538, 2022

ŞAHİN, C. A. And Karacor, M. 2022. Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure. Electrical Engineering , vol.104, no.3 , 1527-1538.

ŞAHİN, C. A., & Karacor, M., (2022). Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure. Electrical Engineering , vol.104, no.3, 1527-1538.

ŞAHİN, CİHAN, And MEVLÜT KARAÇOR. "Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure," Electrical Engineering , vol.104, no.3, 1527-1538, 2022

ŞAHİN, CİHAN A. And Karacor, MEVLÜT. "Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure." Electrical Engineering , vol.104, no.3, pp.1527-1538, 2022

ŞAHİN, C. A. And Karacor, M. (2022) . "Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure." Electrical Engineering , vol.104, no.3, pp.1527-1538.

@article{article, author={CİHAN ALP ŞAHİN And author={MEVLÜT KARAÇOR}, title={Principle, design and analysis of a novel axial flux switched reluctance machine with fully pitched winding structure}, journal={Electrical Engineering}, year=2022, pages={1527-1538} }