A. Arbak Et Al. , "Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition," INTERNATIONAL JOURNAL OF THERMAL SCIENCES , vol.183, 2023
Arbak, A. Et Al. 2023. Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition. INTERNATIONAL JOURNAL OF THERMAL SCIENCES , vol.183 .
Arbak, A., Özdemir, M., & Dukhan, N., (2023). Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition. INTERNATIONAL JOURNAL OF THERMAL SCIENCES , vol.183.
Arbak, Altay, Mustafa Özdemir, And Nihad Dukhan. "Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition," INTERNATIONAL JOURNAL OF THERMAL SCIENCES , vol.183, 2023
Arbak, Altay Et Al. "Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition." INTERNATIONAL JOURNAL OF THERMAL SCIENCES , vol.183, 2023
Arbak, A. Özdemir, M. And Dukhan, N. (2023) . "Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition." INTERNATIONAL JOURNAL OF THERMAL SCIENCES , vol.183.
@article{article, author={Altay Arbak Et Al. }, title={Heat transfer of pulsating water flow through aluminum-foam channel under asymmetric constant heat flux boundary condition}, journal={INTERNATIONAL JOURNAL OF THERMAL SCIENCES}, year=2023}