Thermal properties of closed-cell aluminum foam with circular pores

Guo Yun Lu; Bu Yun Su; Zhi Qiang Li; Zhi Hua Wang; Wei Dong Song; H. P. Tang

doi:10.2298/TSCI1405619L

Thermal properties of closed-cell aluminum foam with circular pores

Guo Yun Lu, Bu Yun Su, Zhi Qiang Li, Zhi Hua Wang^*, Wei Dong Song, H. P. Tang

^*Corresponding author for this work

School of Mechatronical Engineering

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

7 Citations (Scopus)

Abstract

The thermal property of closed-cell aluminum foam is studied numerically and the effects of the distribution of the circular pore on the thermal property are studied theoretically. When the convection and radiation are ignored, the effects of porosity, cell size, and distribution forms of pore on the apparent thermal conductivity are investigated. Moreover, the effects of air in the pore on the thermal property are analyzed as well. Simulation results show that apparent thermal conductivity linearly increases with the increase of porosity, while the cell size and the distribution have negligible effects on the thermal property. By comparison, thermal conductivity of air has slight effect on thermal property of foamed aluminum in the context of small size pore.

Original language	English
Pages (from-to)	1619-1624
Number of pages	6
Journal	Thermal Science
Volume	18
Issue number	5
DOIs	https://doi.org/10.2298/TSCI1405619L
Publication status	Published - 2014

Keywords

Apparent thermal conductivity
Circular pore
Close-cell aluminum foam
Finite element method

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10.2298/TSCI1405619L

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title = "Thermal properties of closed-cell aluminum foam with circular pores",

abstract = "The thermal property of closed-cell aluminum foam is studied numerically and the effects of the distribution of the circular pore on the thermal property are studied theoretically. When the convection and radiation are ignored, the effects of porosity, cell size, and distribution forms of pore on the apparent thermal conductivity are investigated. Moreover, the effects of air in the pore on the thermal property are analyzed as well. Simulation results show that apparent thermal conductivity linearly increases with the increase of porosity, while the cell size and the distribution have negligible effects on the thermal property. By comparison, thermal conductivity of air has slight effect on thermal property of foamed aluminum in the context of small size pore.",

keywords = "Apparent thermal conductivity, Circular pore, Close-cell aluminum foam, Finite element method",

author = "Lu, {Guo Yun} and Su, {Bu Yun} and Li, {Zhi Qiang} and Wang, {Zhi Hua} and Song, {Wei Dong} and Tang, {H. P.}",

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T1 - Thermal properties of closed-cell aluminum foam with circular pores

AU - Lu, Guo Yun

AU - Su, Bu Yun

AU - Li, Zhi Qiang

AU - Wang, Zhi Hua

AU - Song, Wei Dong

AU - Tang, H. P.

PY - 2014

Y1 - 2014

N2 - The thermal property of closed-cell aluminum foam is studied numerically and the effects of the distribution of the circular pore on the thermal property are studied theoretically. When the convection and radiation are ignored, the effects of porosity, cell size, and distribution forms of pore on the apparent thermal conductivity are investigated. Moreover, the effects of air in the pore on the thermal property are analyzed as well. Simulation results show that apparent thermal conductivity linearly increases with the increase of porosity, while the cell size and the distribution have negligible effects on the thermal property. By comparison, thermal conductivity of air has slight effect on thermal property of foamed aluminum in the context of small size pore.

AB - The thermal property of closed-cell aluminum foam is studied numerically and the effects of the distribution of the circular pore on the thermal property are studied theoretically. When the convection and radiation are ignored, the effects of porosity, cell size, and distribution forms of pore on the apparent thermal conductivity are investigated. Moreover, the effects of air in the pore on the thermal property are analyzed as well. Simulation results show that apparent thermal conductivity linearly increases with the increase of porosity, while the cell size and the distribution have negligible effects on the thermal property. By comparison, thermal conductivity of air has slight effect on thermal property of foamed aluminum in the context of small size pore.

KW - Apparent thermal conductivity

KW - Circular pore

KW - Close-cell aluminum foam

KW - Finite element method

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DO - 10.2298/TSCI1405619L

M3 - Article

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SN - 0354-9836

VL - 18

SP - 1619

EP - 1624

JO - Thermal Science

JF - Thermal Science

IS - 5

ER -

Thermal properties of closed-cell aluminum foam with circular pores

Abstract

Keywords

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