Items where Author is "Yun-Xiang, Li"

Up a level
Export as [feed] Atom [feed] RSS 1.0 [feed] RSS 2.0
Group by: Item Type | No Grouping
Jump to: Article
Number of items: 6.

Article

Yun-Xiang, Li and Sami Ullah, Khan and Faqir, Shah and Hassan, Waqas and M. Ijaz, Khan and M. Y., Malik Bio-convective couple stress nanofluid behavior analysis with temperature-dependent viscosity and higher order slip encountered by a moving surface. International Journal of Modern Physics B.

Yun-Xiang, Li and Aamir, Hamid and M. Ijaz, Khan and Yasser, Elmasry and Sumaira, Qayyum and R. S., Varun Kumar and J. K., Madhukesh and B. C., Prasannakumara and Yu-Ming, Chu Dual branch solutions (multi-solutions) for nonlinear radiative Falkner–Skan flow of Maxwell nanomaterials with heat and mass transfer over a static/moving wedge. International Journal of Modern Physics C.

Yun-Xiang, Li and M. Ijaz, Khan and R. J. Punith, Gowda and Arfan, Ali and Shahid, Farooq and Yu-Ming, Chu and Sami Ullah, Khan Dynamics of aluminum oxide and copper hybrid nanofluid in nonlinear mixed Marangoni convective flow with entropy generation: Applications to renewable energy. Chinese Journal of Physics.

Yun-Xiang, Li and M. Ijaz, Khan and Sohail A., Khan and M., Waqas Influence of thermo-diffusion and dissipation thermo on the characteristics of optimized mixed convective radiative laminar flow with chemical reaction. Computational and Theoretical Chemistry.

Yun-Xiang, Li and Hassan, Waqas and Kamel, Al-Khaled and Shan Ali, Khan and M. Ijaz, Khan and Sami Ullah, Khan and Rabia, Naseem and Yu-Ming, Chu Simultaneous features of Wu's slip, nonlinear thermal radiation and activation energy in unsteady bio-convective flow of Maxwell nanofluid configured by a stretching cylinder. Chinese Journal of Physics.

Yun-Xiang, Li and Hassan, Waqas and Kamel, Al-Khaled and Sajjad, Hussain and Sami Ullah, Khan and Tian-Chuan, Sun and M. Ijaz, Khan and M.Y., Malik and Iskander, Tlili Study of radiative Reiner-Philippoff nanofluid model with gyrotactic microorganisms and activation energy: A Cattaneo-Christov Double Diffusion (CCDD) model analysis. Chinese Journal of Physics.

This list was generated on Fri Dec 27 04:13:44 2024 PKT.