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Current research progress in non-classical fourier heat conduction

Wang, Feifei and Wang, Baolin (2014). Current research progress in non-classical fourier heat conduction. Applied Mechanics and Materials,442:187-196.

Document type: Journal Article
Citation counts: Scopus Citation Count Cited 0 times in Scopus Article

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IRMA ID 82794376xPUB213
Title Current research progress in non-classical fourier heat conduction
Author Wang, Feifei
Wang, Baolin
Journal Name Applied Mechanics and Materials
Publication Date 2014
Volume Number 442
ISSN 1660-9336   (check CDU catalogue open catalogue search in new window)
Scopus ID 2-s2.0-84887287445
Start Page 187
End Page 196
Total Pages 10
Place of Publication Switzerland
Publisher Scientific.Net
HERDC Category C1 - Journal Article (DIISR)
Abstract Classical Fourier law can accurately describe most heat conduction problems. But for ultrafast heat conduction process and micro/nanoscale heat conduction problems, non-classical Fourier (non-Fourier) effect may become dominated. The paper gives a review on the current progress on non-Fourier heat conduction in engineering. It includes basic concept, physical models, thermal relaxation effect, and related experiments. Also introduced are the solution methods of non-Fourier heat conduction equations, including closed-form solution, finite difference method, finite element method, molecular dynamics simulation, variational method, and other hybrid methods. Some challenging issues are discussed at the conclusion of the paper.
Keywords Analysis Solution
Non-Fourier Heat Conduction
Numerical Solution
Relaxation Effect
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Created: Wed, 19 Aug 2015, 12:07:34 CST