T. KARADAĞ And H. G. BAKIR, "Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity," PARTICULATE SCIENCE AND TECHNOLOGY , vol.38, no.1, pp.45-53, 2020
KARADAĞ, T. And BAKIR, H. G. 2020. Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity. PARTICULATE SCIENCE AND TECHNOLOGY , vol.38, no.1 , 45-53.
KARADAĞ, T., & BAKIR, H. G., (2020). Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity. PARTICULATE SCIENCE AND TECHNOLOGY , vol.38, no.1, 45-53.
KARADAĞ, TEOMAN, And HINCAL GÖKHAN BAKIR. "Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity," PARTICULATE SCIENCE AND TECHNOLOGY , vol.38, no.1, 45-53, 2020
KARADAĞ, TEOMAN And BAKIR, HINCAL G. . "Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity." PARTICULATE SCIENCE AND TECHNOLOGY , vol.38, no.1, pp.45-53, 2020
KARADAĞ, T. And BAKIR, H. G. (2020) . "Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity." PARTICULATE SCIENCE AND TECHNOLOGY , vol.38, no.1, pp.45-53.
@article{article, author={TEOMAN KARADAĞ And author={HINCAL GÖKHAN BAKIR}, title={Modeling of particle-capture mechanism of axial magnetic filter in bounded flow field with variable viscosity}, journal={PARTICULATE SCIENCE AND TECHNOLOGY}, year=2020, pages={45-53} }