UZUN, B. And Yayh, M. Ö. 2022. Porosity dependent torsional vibrations of restrained FG nanotubes using modified couple stress theory. MATERIALS TODAY COMMUNICATIONS , vol.32 .

UZUN, B., & Yayh, M. Ö., (2022). Porosity dependent torsional vibrations of restrained FG nanotubes using modified couple stress theory. MATERIALS TODAY COMMUNICATIONS , vol.32.

UZUN, BÜŞRA, And MUSTAFA ÖZGÜR YAYLI. "Porosity dependent torsional vibrations of restrained FG nanotubes using modified couple stress theory," MATERIALS TODAY COMMUNICATIONS , vol.32, 2022

UZUN, BÜŞRA And Yayh, MUSTAFA Ö. . "Porosity dependent torsional vibrations of restrained FG nanotubes using modified couple stress theory." MATERIALS TODAY COMMUNICATIONS , vol.32, 2022

UZUN, B. And Yayh, M. Ö. (2022) . "Porosity dependent torsional vibrations of restrained FG nanotubes using modified couple stress theory." MATERIALS TODAY COMMUNICATIONS , vol.32.

@article{article, author={BÜŞRA UZUN And author={MUSTAFA ÖZGÜR YAYLI}, title={Porosity dependent torsional vibrations of restrained FG nanotubes using modified couple stress theory}, journal={MATERIALS TODAY COMMUNICATIONS}, year=2022}