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A Size-Dependent Non-Fourier Heat Conduction Model for Magneto-Thermoelastic Vibration Response of Nanosystems

Publish place: Journal of Applied and Computational Mechanics، Vol: 11، Issue: 2
Publish Year: 1404
نوع سند: مقاله ژورنالی
زبان: English
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لینک ثابت به این Paper:
https://civilica.com/doc/2214101

شناسه ملی سند علمی:

JR_JACM-11-2_006

تاریخ نمایه سازی: 19 فروردین 1404

Abstract:

This study proposes a new fractional model to show how heat transfers through nanomaterials by considering the thermoelastic vibration of one-dimensional nanostructures via nonlocal elasticity theory. Size-dependent properties of materials can either give a very high thermal conductivity or explain the heat transfer mechanism in large-scale integrated circuits, which improves the quality of thermoelectric devices. The modified heat conduction model includes two-phase lags and higher-order proportional Caputo fractional time derivatives. By applying the dual-phase lag approach, it can be shown that the energy equation can be simplified to regulate the heat transfer rate to the crystal lattice in nanostructured models. The suggested model is employed to investigate the magneto-thermoelastic interactions in a nonlocal solid that undergoes time-dependent periodic heat generation. The sensitivity of various material parameters, such as nonlocal parameters, higher-order derivatives, and fractional operators, is explored in depth for the considered physical fields.

Keywords:

Nano-sized structures , magneto-thermoelastic interactions , nonlocal elasticity theory , proportional Caputo derivatives

Authors

Ahmed Abouelregal

Department of Mathematics, Faculty of Science, Mansoura University, Mansoura, ۳۵۵۱۶, Egypt

Ömer Civalek

Department of Medical Research, China Medical University Hospital, China Medical University, Taichung, ۴۰۶, Taiwan

Bekir Akgöz

Division of Mechanics, Civil Engineering Department, Akdeniz University, Antalya, ۰۷۰۵۸, Türkiye

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