Melting heat and mass transfer in stagnation point micropolar fluid flow of temperature dependent fluid viscosity and thermal conductivity at constant vortex viscosity
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Springer Science and Business Media LLC
Reference31 articles.
1. Die grenzschict neinem in den gleichformigen flussigkeitsstrom eingetauchten geraden kreiszylinder;Hiemenz;Dingler’s Polytech. J.,1911
2. Hydromagnetic stagnation-point flow towards a radially stretching convectively heated disk;Shateyi;Math. Prob. Eng.,2013
3. Heat and mass transfer by MHD mixed convection stagnation point flow toward a vertical plate embedded in a highly porous medium with radiation and internal heat generation;Makinde;Meccanica,2012
4. Heat and mass transfer of upper convected maxwell fluid flow with variable thermo-physical properties over a horizontal melting surface;Adegbie;Appl. Math.,2015
5. Stagnation point flow and heat transfer behavior of cu-water nanofluid towards horizontal and exponentially stretching/shrinking cylinders;Sulochana;Appl. Nanosci.,2015
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