Structural characteristics and high-temperature oxidation behavior of porous Fe-40 at.%Al alloy

P. Z. Shen; M. Song; H. Y. Gao; Y. H. He; J. Zou; N. P. Xu; B. Y. Huang; C. T. Liu

doi:10.1007/s10853-009-3669-3

Structural characteristics and high-temperature oxidation behavior of porous Fe-40 at.%Al alloy

P. Z. Shen, M. Song, H. Y. Gao, Y. H. He, J. Zou, N. P. Xu, B. Y. Huang, C. T. Liu

College of Chemical Engineering

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

31 Scopus citations

Abstract

Porous FeAl alloy was prepared by Fe and Al elemental reaction synthesis. The cyclic oxidation evolutions of porous Fe-40 at.%Al alloy at the elevated temperatures of 600 and 800 °C in air were studied and compared to porous materials of Ti, Ni, and 316L stainless steel. It has been shown that the oxidation of porous Fe-40 at.%Al alloy fitted a power law and no spallation was found after cyclic oxidation for 202 h in air. The porous FeAl alloy exhibits much better oxidation resistance than other porous materials, such as Ti, Ni, and 316L stainless steel, indicating that the porous Fe-40 at.%Al alloy has the highest structural stability at the elevated temperature in the oxidation atmosphere. Thus, the porous FeAl alloy can be used as filtering materials at elevated temperature in the oxidation atmosphere.

Original language	English
Pages (from-to)	4413-4421
Number of pages	9
Journal	Journal of Materials Science
Volume	44
Issue number	16
DOIs	https://doi.org/10.1007/s10853-009-3669-3
State	Published - Aug 2009

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title = "Structural characteristics and high-temperature oxidation behavior of porous Fe-40 at.%Al alloy",

abstract = "Porous FeAl alloy was prepared by Fe and Al elemental reaction synthesis. The cyclic oxidation evolutions of porous Fe-40 at.%Al alloy at the elevated temperatures of 600 and 800 °C in air were studied and compared to porous materials of Ti, Ni, and 316L stainless steel. It has been shown that the oxidation of porous Fe-40 at.%Al alloy fitted a power law and no spallation was found after cyclic oxidation for 202 h in air. The porous FeAl alloy exhibits much better oxidation resistance than other porous materials, such as Ti, Ni, and 316L stainless steel, indicating that the porous Fe-40 at.%Al alloy has the highest structural stability at the elevated temperature in the oxidation atmosphere. Thus, the porous FeAl alloy can be used as filtering materials at elevated temperature in the oxidation atmosphere.",

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T1 - Structural characteristics and high-temperature oxidation behavior of porous Fe-40 at.%Al alloy

AU - Shen, P. Z.

AU - Song, M.

AU - Gao, H. Y.

AU - He, Y. H.

AU - Zou, J.

AU - Xu, N. P.

AU - Huang, B. Y.

AU - Liu, C. T.

PY - 2009/8

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N2 - Porous FeAl alloy was prepared by Fe and Al elemental reaction synthesis. The cyclic oxidation evolutions of porous Fe-40 at.%Al alloy at the elevated temperatures of 600 and 800 °C in air were studied and compared to porous materials of Ti, Ni, and 316L stainless steel. It has been shown that the oxidation of porous Fe-40 at.%Al alloy fitted a power law and no spallation was found after cyclic oxidation for 202 h in air. The porous FeAl alloy exhibits much better oxidation resistance than other porous materials, such as Ti, Ni, and 316L stainless steel, indicating that the porous Fe-40 at.%Al alloy has the highest structural stability at the elevated temperature in the oxidation atmosphere. Thus, the porous FeAl alloy can be used as filtering materials at elevated temperature in the oxidation atmosphere.

AB - Porous FeAl alloy was prepared by Fe and Al elemental reaction synthesis. The cyclic oxidation evolutions of porous Fe-40 at.%Al alloy at the elevated temperatures of 600 and 800 °C in air were studied and compared to porous materials of Ti, Ni, and 316L stainless steel. It has been shown that the oxidation of porous Fe-40 at.%Al alloy fitted a power law and no spallation was found after cyclic oxidation for 202 h in air. The porous FeAl alloy exhibits much better oxidation resistance than other porous materials, such as Ti, Ni, and 316L stainless steel, indicating that the porous Fe-40 at.%Al alloy has the highest structural stability at the elevated temperature in the oxidation atmosphere. Thus, the porous FeAl alloy can be used as filtering materials at elevated temperature in the oxidation atmosphere.

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Structural characteristics and high-temperature oxidation behavior of porous Fe-40 at.%Al alloy

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