Results 211 to 220 of about 2,865 (231)
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ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik
The present study examines the exponentially stretched flow of a micropolar hybrid nanofluid with dissipative energy and radiation aspects. The transport equations are evaluated using similarity transformations to assess the effects of microrotation ...
Muhammad Faisal +3 more
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The present study examines the exponentially stretched flow of a micropolar hybrid nanofluid with dissipative energy and radiation aspects. The transport equations are evaluated using similarity transformations to assess the effects of microrotation ...
Muhammad Faisal +3 more
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The Physics of Fluids
This paper introduces an integrated physics–machine learning framework to model unsteady magnetohydrodynamic free convection in a micropolar fluid over a porous vertical sheet subjected to suction and Lorentz forces.
M. Mahboobtosi +6 more
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This paper introduces an integrated physics–machine learning framework to model unsteady magnetohydrodynamic free convection in a micropolar fluid over a porous vertical sheet subjected to suction and Lorentz forces.
M. Mahboobtosi +6 more
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Mechanical Engineering Advances
This study investigates the viscous, incompressible, laminar, time-independent micropolar MHD fluid flow between two stretching disks under radiant heat flux, with applications in industrial systems like turbines and nuclear reactors.
Ali Ahmadi Azar
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This study investigates the viscous, incompressible, laminar, time-independent micropolar MHD fluid flow between two stretching disks under radiant heat flux, with applications in industrial systems like turbines and nuclear reactors.
Ali Ahmadi Azar
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CFD Letters
The effective use of non-Newtonian fluids is vital for situations involving heat and mass transfer. For instance, we employ thermal paste, a non-Newtonian fluid, to cool the CPU. By means of a computational approach, the behaviour of non-Newtonian on the
Shaik Mohammed Ibrahim +4 more
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The effective use of non-Newtonian fluids is vital for situations involving heat and mass transfer. For instance, we employ thermal paste, a non-Newtonian fluid, to cool the CPU. By means of a computational approach, the behaviour of non-Newtonian on the
Shaik Mohammed Ibrahim +4 more
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East European Journal of Physics
Novelty of this research is to explore an impact of Lorentz force, Arrhenius activation energy, and Conduction of Melting Heat on the micropolar fluid behaviour of steady radiative bio-convective micropolar nanofluid flow towards a stretchable surface ...
Syed Fazuruddin +4 more
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Novelty of this research is to explore an impact of Lorentz force, Arrhenius activation energy, and Conduction of Melting Heat on the micropolar fluid behaviour of steady radiative bio-convective micropolar nanofluid flow towards a stretchable surface ...
Syed Fazuruddin +4 more
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Journal of Tribology, 1994
The theory of micropolar liquid lubrication (see Prakash and Sinha, 1975; Tipei, 1979; Singh and Sinha, 1982) takes into account only the increasing of effective viscosity in thin layers. Modern experiments (see Derjaguin et al., 1985) show that effective viscosity can increase or decrease and approaches to a certain limit (boundary viscosity ...
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The theory of micropolar liquid lubrication (see Prakash and Sinha, 1975; Tipei, 1979; Singh and Sinha, 1982) takes into account only the increasing of effective viscosity in thin layers. Modern experiments (see Derjaguin et al., 1985) show that effective viscosity can increase or decrease and approaches to a certain limit (boundary viscosity ...
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Acta Mathematica Scientia
In this paper, we study the asymptotic behavior of the micropolar fluid flow through a thin domain, assuming zero Dirichlet boundary condition on the top boundary, which is rapidly oscillating, and non-standard boundary conditions on the flat bottom ...
M. Anguiano, Francisco J. Suárez‐Grau
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In this paper, we study the asymptotic behavior of the micropolar fluid flow through a thin domain, assuming zero Dirichlet boundary condition on the top boundary, which is rapidly oscillating, and non-standard boundary conditions on the flat bottom ...
M. Anguiano, Francisco J. Suárez‐Grau
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Contemporary Mathematics
The proposed work offers a novel Boundary Element Method (BEM) approach to solve the steady-state and transient thermoelastic analyses of thermally activated Micro-Electro-Mechanical Systems (MEMS) microgrippers, which capture size effects using ...
Mohamed Abdelsabour Fahmy, Ahmad Almutlg
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The proposed work offers a novel Boundary Element Method (BEM) approach to solve the steady-state and transient thermoelastic analyses of thermally activated Micro-Electro-Mechanical Systems (MEMS) microgrippers, which capture size effects using ...
Mohamed Abdelsabour Fahmy, Ahmad Almutlg
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Quarterly of Applied Mathematics
The goal of this paper is to provide a rigorous justification of the asymptotic model proposed by Beneš et al. [Nonzero boundary condition for the unsteady micropolar pipe flow: well-posedness and asymptotics, Appl. Math. Comput. 427 (2022), Paper No. 127184, 22] for the time-dependent flow of a micropolar fluid in a thin cylindrical pipe.
Pažanin, Igor, Rukavina, Borja
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The goal of this paper is to provide a rigorous justification of the asymptotic model proposed by Beneš et al. [Nonzero boundary condition for the unsteady micropolar pipe flow: well-posedness and asymptotics, Appl. Math. Comput. 427 (2022), Paper No. 127184, 22] for the time-dependent flow of a micropolar fluid in a thin cylindrical pipe.
Pažanin, Igor, Rukavina, Borja
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<title>Microrotators fabricated by photolithography</title>
SPIE Proceedings, 2001Takashi Katsuhara +5 more
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