Role of viscoelasticity on thermoelectromechanical system subjected to annular regions of cylinders in the existence of a uniform inclined magnetic field

Thermal mechanical and thermal electrical properties play an adhesive role in the characterization of a dilatometer, dynamic-mechanical thermal analyzer, and dissipation of the heat in electronic packaging systems, respectively. In this paper, an unsteady fractional model of rotational flow for Xant...

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Veröffentlicht in:	European physical journal plus 2022-07, Vol.137 (7), p.770, Article 770
Hauptverfasser:	Ali, Qasim, Yassen, Mansour F., Asiri, Saeed Ahmed, Pasha, Amjad Ali, Abro, Kashif Ali
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Sprache:	eng
Schlagworte:	Applied and Technical Physics Atomic Boundary conditions Complex Systems Condensed Matter Physics Electrical properties Electronic packaging Extensometers Fluid flow Fluids Heat Magnetic fields Magnetic properties Manufacturing Mathematical and Computational Physics Molecular Optical and Plasma Physics Physics Physics and Astronomy Regular Article Reynolds number Rotating cylinders Rotational flow Shear stress Theoretical Velocity distribution Viscoelasticity Viscosity Vortices Xanthan
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creator	Ali, Qasim Yassen, Mansour F. Asiri, Saeed Ahmed Pasha, Amjad Ali Abro, Kashif Ali
description	Thermal mechanical and thermal electrical properties play an adhesive role in the characterization of a dilatometer, dynamic-mechanical thermal analyzer, and dissipation of the heat in electronic packaging systems, respectively. In this paper, an unsteady fractional model of rotational flow for Xanthan gum between two cylinders in the existence of a uniform inclined magnetic field is investigated. For the sake of thermal–mechanical and thermal electrical effects, a fractional model based on Caputo–Fabrizio time-fractional derivative is developed. The Laplace transform technique has been employed to trace out numerical solutions subject to imposed boundaries. The fractional factors are also examined by depicting graphs to have their functional profiles of temperature and velocity distribution. The correlation among the fractional factors and rotation of cylinders are deliberated for the profiles of temperature and velocity distribution subject to smaller or larger estimations of time.
doi_str_mv	10.1140/epjp/s13360-022-02951-w
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Phys. J. Plus</addtitle><description>Thermal mechanical and thermal electrical properties play an adhesive role in the characterization of a dilatometer, dynamic-mechanical thermal analyzer, and dissipation of the heat in electronic packaging systems, respectively. In this paper, an unsteady fractional model of rotational flow for Xanthan gum between two cylinders in the existence of a uniform inclined magnetic field is investigated. For the sake of thermal–mechanical and thermal electrical effects, a fractional model based on Caputo–Fabrizio time-fractional derivative is developed. The Laplace transform technique has been employed to trace out numerical solutions subject to imposed boundaries. The fractional factors are also examined by depicting graphs to have their functional profiles of temperature and velocity distribution. 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subjects	Applied and Technical Physics Atomic Boundary conditions Complex Systems Condensed Matter Physics Electrical properties Electronic packaging Extensometers Fluid flow Fluids Heat Magnetic fields Magnetic properties Manufacturing Mathematical and Computational Physics Molecular Optical and Plasma Physics Physics Physics and Astronomy Regular Article Reynolds number Rotating cylinders Rotational flow Shear stress Theoretical Velocity distribution Viscoelasticity Viscosity Vortices Xanthan
title	Role of viscoelasticity on thermoelectromechanical system subjected to annular regions of cylinders in the existence of a uniform inclined magnetic field
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