A Ubiquitiformal One-Dimensional Steady-State Conduction Model for a Cellular Material Rod

Guan Ying Li; Zhuo Cheng Ou; Ran Xie; Zhuo Ping Duan; Feng Lei Huang

doi:10.1007/s10765-015-2010-4

A Ubiquitiformal One-Dimensional Steady-State Conduction Model for a Cellular Material Rod

Guan Ying Li, Zhuo Cheng Ou^*, Ran Xie, Zhuo Ping Duan, Feng Lei Huang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

A ubiquitiformal model for the one-dimensional steady-state heat transfer of a cellular material rod is developed in this paper, and the explicit analytical expressions for both the temperature distribution and the equivalent thermal conductivity are obtained. The calculated results for two kinds of dry soil are found to be in good agreement with previous experimental data. Moreover, it is demonstrated that the ubiquitiformal model is more reasonable for describing such a cellular material than the fractal one, and hence a ubiquitiformal rather than a fractal model should be considered in practical applications whenever the integral dimensional measure of a real physical object must be taken into account.

Original language	English
Article number	41
Pages (from-to)	1-13
Number of pages	13
Journal	International Journal of Thermophysics
Volume	37
Issue number	4
DOIs	https://doi.org/10.1007/s10765-015-2010-4
Publication status	Published - 1 Apr 2016

Keywords

Cellular material
Temperature distribution
Thermal conductivity
Ubiquitiform

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10.1007/s10765-015-2010-4

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abstract = "A ubiquitiformal model for the one-dimensional steady-state heat transfer of a cellular material rod is developed in this paper, and the explicit analytical expressions for both the temperature distribution and the equivalent thermal conductivity are obtained. The calculated results for two kinds of dry soil are found to be in good agreement with previous experimental data. Moreover, it is demonstrated that the ubiquitiformal model is more reasonable for describing such a cellular material than the fractal one, and hence a ubiquitiformal rather than a fractal model should be considered in practical applications whenever the integral dimensional measure of a real physical object must be taken into account.",

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AU - Li, Guan Ying

AU - Ou, Zhuo Cheng

AU - Xie, Ran

AU - Duan, Zhuo Ping

AU - Huang, Feng Lei

PY - 2016/4/1

Y1 - 2016/4/1

N2 - A ubiquitiformal model for the one-dimensional steady-state heat transfer of a cellular material rod is developed in this paper, and the explicit analytical expressions for both the temperature distribution and the equivalent thermal conductivity are obtained. The calculated results for two kinds of dry soil are found to be in good agreement with previous experimental data. Moreover, it is demonstrated that the ubiquitiformal model is more reasonable for describing such a cellular material than the fractal one, and hence a ubiquitiformal rather than a fractal model should be considered in practical applications whenever the integral dimensional measure of a real physical object must be taken into account.

AB - A ubiquitiformal model for the one-dimensional steady-state heat transfer of a cellular material rod is developed in this paper, and the explicit analytical expressions for both the temperature distribution and the equivalent thermal conductivity are obtained. The calculated results for two kinds of dry soil are found to be in good agreement with previous experimental data. Moreover, it is demonstrated that the ubiquitiformal model is more reasonable for describing such a cellular material than the fractal one, and hence a ubiquitiformal rather than a fractal model should be considered in practical applications whenever the integral dimensional measure of a real physical object must be taken into account.

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A Ubiquitiformal One-Dimensional Steady-State Conduction Model for a Cellular Material Rod

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Keywords

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