Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid

Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid

The aim of the present study is to unravel the concealed attributes of the Love-type wave propagating in a composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> laden with Newtonian viscous liquid (VL), resting over Aluminium-Epoxy as a semi-inf...

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Bibliographic Details
Main Authors: Vanita Sharma, Satish Kumar
Format: Article
Language:English
Published: AIMS Press 2020-02-01
Series:AIMS Mathematics
Subjects:
piezomagnetic material
magnetic sensors
love-type waves
micropolar
coefficient of viscosity
Online Access:https://www.aimspress.com/article/10.3934/math.2020122/fulltext.html
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spelling doaj-3d9ebcf06d6540ada7a60d30cfd6bd122020-11-25T01:39:23ZengAIMS PressAIMS Mathematics2473-69882020-02-01531820184210.3934/math.2020122Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquidVanita Sharma0Satish Kumar1School of Mathematics, Thapar Institute of Engineering and Technology, Patiala, 147004, IndiaSchool of Mathematics, Thapar Institute of Engineering and Technology, Patiala, 147004, IndiaThe aim of the present study is to unravel the concealed attributes of the Love-type wave propagating in a composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> laden with Newtonian viscous liquid (VL), resting over Aluminium-Epoxy as a semi-infinite micropolar (MP) substrate bearing size dependent properties. The admissible boundary conditions are used to obtain the dispersion relations for both magnetically open and short cases. To support the findings and reverberations of affecting parameters, graphical representations are provided. Probable particular cases are deduced and matched with the existing result. It can be perceived from graphical representations that phase velocity of Love-type wave is remarkably affected by these parameters. Findings may have meaningful practical applications towards the optimization of magnetic sensors and transducers working in liquid environment.https://www.aimspress.com/article/10.3934/math.2020122/fulltext.htmlpiezomagnetic materialmagnetic sensorslove-type wavesmicropolarcoefficient of viscosity
collection DOAJ
language English
format Article
sources DOAJ
author Vanita Sharma
Satish Kumar
spellingShingle Vanita Sharma
Satish Kumar
Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid
AIMS Mathematics
piezomagnetic material
magnetic sensors
love-type waves
micropolar
coefficient of viscosity
author_facet Vanita Sharma
Satish Kumar
author_sort Vanita Sharma
title Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid
title_short Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid
title_full Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid
title_fullStr Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid
title_full_unstemmed Caliberating length scale parameter and micropolarity on transference of Love-type waves in composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> and Aluminium-Epoxy laden with Newtonian liquid
title_sort caliberating length scale parameter and micropolarity on transference of love-type waves in composite of <em>cofe</em><sub>2</sub><em>o</em><sub>4</sub> and aluminium-epoxy laden with newtonian liquid
publisher AIMS Press
series AIMS Mathematics
issn 2473-6988
publishDate 2020-02-01
description The aim of the present study is to unravel the concealed attributes of the Love-type wave propagating in a composite of <em>CoFe</em><sub>2</sub><em>O</em><sub>4</sub> laden with Newtonian viscous liquid (VL), resting over Aluminium-Epoxy as a semi-infinite micropolar (MP) substrate bearing size dependent properties. The admissible boundary conditions are used to obtain the dispersion relations for both magnetically open and short cases. To support the findings and reverberations of affecting parameters, graphical representations are provided. Probable particular cases are deduced and matched with the existing result. It can be perceived from graphical representations that phase velocity of Love-type wave is remarkably affected by these parameters. Findings may have meaningful practical applications towards the optimization of magnetic sensors and transducers working in liquid environment.
topic piezomagnetic material
magnetic sensors
love-type waves
micropolar
coefficient of viscosity
url https://www.aimspress.com/article/10.3934/math.2020122/fulltext.html
work_keys_str_mv AT vanitasharma caliberatinglengthscaleparameterandmicropolarityontransferenceoflovetypewavesincompositeofemcofeemsub2subemoemsub4subandaluminiumepoxyladenwithnewtonianliquid
AT satishkumar caliberatinglengthscaleparameterandmicropolarityontransferenceoflovetypewavesincompositeofemcofeemsub2subemoemsub4subandaluminiumepoxyladenwithnewtonianliquid
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