Effect of equal-channel angular pressing on pitting corrosion of pure aluminum

Injoon Son; Hiroaki Nakano; Satoshi Oue; Shigeo Kobayashi; Hisaaki Fukushima; Zenji Horita

doi:10.1155/2012/450854

Effect of equal-channel angular pressing on pitting corrosion of pure aluminum

Injoon Son, Hiroaki Nakano, Satoshi Oue, Shigeo Kobayashi, Hisaaki Fukushima, Zenji Horita

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

14 Citations (Scopus)

Abstract

The effect of equal-channel angular pressing (ECAP) on the pitting corrosion of pure Al was investigated using electrochemical techniques in solutions containing 0.1 m mol·dm^-3 of Na₂SO ₄ and 8.46 mol·dm^-3 of NaCl (300 ppm Cl ^-) and followed by surface analysis. The potential for pitting corrosion of pure Al was clearly shifted in the noble direction by the ECAP process indicating that this process improves resistance to pitting corrosion. The time dependence of corrosion potential and the anodic potential at 1 A·m^-2 revealed that the rate of formation of Al oxide films increased due to a decrease in the grain size of the Al after ECAP. Since there exists a negligible amount of impurity precipitates in pure Al, the improvement in pitting corrosion resistance of pure Al by ECAP appears to be attributable to an increase in the rate of formation of Al oxide films.

Original language	English
Article number	450854
Journal	International Journal of Corrosion
Volume	2012
DOIs	https://doi.org/10.1155/2012/450854
Publication status	Published - 2012

All Science Journal Classification (ASJC) codes

Materials Science(all)
Process Chemistry and Technology

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title = "Effect of equal-channel angular pressing on pitting corrosion of pure aluminum",

abstract = "The effect of equal-channel angular pressing (ECAP) on the pitting corrosion of pure Al was investigated using electrochemical techniques in solutions containing 0.1 m mol·dm-3 of Na2SO 4 and 8.46 mol·dm-3 of NaCl (300 ppm Cl -) and followed by surface analysis. The potential for pitting corrosion of pure Al was clearly shifted in the noble direction by the ECAP process indicating that this process improves resistance to pitting corrosion. The time dependence of corrosion potential and the anodic potential at 1 A·m-2 revealed that the rate of formation of Al oxide films increased due to a decrease in the grain size of the Al after ECAP. Since there exists a negligible amount of impurity precipitates in pure Al, the improvement in pitting corrosion resistance of pure Al by ECAP appears to be attributable to an increase in the rate of formation of Al oxide films.",

author = "Injoon Son and Hiroaki Nakano and Satoshi Oue and Shigeo Kobayashi and Hisaaki Fukushima and Zenji Horita",

year = "2012",

doi = "10.1155/2012/450854",

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T1 - Effect of equal-channel angular pressing on pitting corrosion of pure aluminum

AU - Son, Injoon

AU - Nakano, Hiroaki

AU - Oue, Satoshi

AU - Kobayashi, Shigeo

AU - Fukushima, Hisaaki

AU - Horita, Zenji

PY - 2012

Y1 - 2012

N2 - The effect of equal-channel angular pressing (ECAP) on the pitting corrosion of pure Al was investigated using electrochemical techniques in solutions containing 0.1 m mol·dm-3 of Na2SO 4 and 8.46 mol·dm-3 of NaCl (300 ppm Cl -) and followed by surface analysis. The potential for pitting corrosion of pure Al was clearly shifted in the noble direction by the ECAP process indicating that this process improves resistance to pitting corrosion. The time dependence of corrosion potential and the anodic potential at 1 A·m-2 revealed that the rate of formation of Al oxide films increased due to a decrease in the grain size of the Al after ECAP. Since there exists a negligible amount of impurity precipitates in pure Al, the improvement in pitting corrosion resistance of pure Al by ECAP appears to be attributable to an increase in the rate of formation of Al oxide films.

AB - The effect of equal-channel angular pressing (ECAP) on the pitting corrosion of pure Al was investigated using electrochemical techniques in solutions containing 0.1 m mol·dm-3 of Na2SO 4 and 8.46 mol·dm-3 of NaCl (300 ppm Cl -) and followed by surface analysis. The potential for pitting corrosion of pure Al was clearly shifted in the noble direction by the ECAP process indicating that this process improves resistance to pitting corrosion. The time dependence of corrosion potential and the anodic potential at 1 A·m-2 revealed that the rate of formation of Al oxide films increased due to a decrease in the grain size of the Al after ECAP. Since there exists a negligible amount of impurity precipitates in pure Al, the improvement in pitting corrosion resistance of pure Al by ECAP appears to be attributable to an increase in the rate of formation of Al oxide films.

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Effect of equal-channel angular pressing on pitting corrosion of pure aluminum

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