High pitting corrosion resistance of pure aluminum with nanoscale twins

Guozhe Meng; Liyan Wei; Yawei Shao; Tao Zhang; Fuhui Wang; Chaofang Dong; Xiaogang Li

doi:10.1149/1.3147257

High pitting corrosion resistance of pure aluminum with nanoscale twins

Guozhe Meng^*
, Liyan Wei
, Yawei Shao
, Tao Zhang
, Fuhui Wang
, Chaofang Dong
, Xiaogang Li

^*Corresponding author for this work

Harbin Engineering University
CAS - Institute of Metal Research
University of Science and Technology Beijing

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

15 Scopus citations

Abstract

Pure aluminum coating with a nanoscale twin structure (NT Al) was successfully deposited by using a magnetron-sputter technique. The corrosion behavior of the NT Al was investigated and compared with that of cast Al in an aqueous acidic chloride solution by using potentiodynamic polarization and an electrochemical noise technique. The results indicated that for NT Al, both the cathodic and anodic reaction processes were greatly inhibited, the corrosion potential shifted to a more positive value, and the corrosion current density apparently decreased. The NT structure affected the pitting behavior of pure aluminum in two ways based on the stochastic analysis of the electrochemical noise data: (i) the formation rate of metastable pits was accelerated and (ii) the growth of the stable pit was impeded. This leads to the enhancement of the pitting resistance for NT Al coatings.

Original language	English
Pages (from-to)	C240-C245
Journal	Journal of the Electrochemical Society
Volume	156
Issue number	8
DOIs	https://doi.org/10.1149/1.3147257
State	Published - 2009
Externally published	Yes

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10.1149/1.3147257

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title = "High pitting corrosion resistance of pure aluminum with nanoscale twins",

abstract = "Pure aluminum coating with a nanoscale twin structure (NT Al) was successfully deposited by using a magnetron-sputter technique. The corrosion behavior of the NT Al was investigated and compared with that of cast Al in an aqueous acidic chloride solution by using potentiodynamic polarization and an electrochemical noise technique. The results indicated that for NT Al, both the cathodic and anodic reaction processes were greatly inhibited, the corrosion potential shifted to a more positive value, and the corrosion current density apparently decreased. The NT structure affected the pitting behavior of pure aluminum in two ways based on the stochastic analysis of the electrochemical noise data: (i) the formation rate of metastable pits was accelerated and (ii) the growth of the stable pit was impeded. This leads to the enhancement of the pitting resistance for NT Al coatings.",

author = "Guozhe Meng and Liyan Wei and Yawei Shao and Tao Zhang and Fuhui Wang and Chaofang Dong and Xiaogang Li",

year = "2009",

doi = "10.1149/1.3147257",

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journal = "Journal of the Electrochemical Society",

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TY - JOUR

T1 - High pitting corrosion resistance of pure aluminum with nanoscale twins

AU - Meng, Guozhe

AU - Wei, Liyan

AU - Shao, Yawei

AU - Zhang, Tao

AU - Wang, Fuhui

AU - Dong, Chaofang

AU - Li, Xiaogang

PY - 2009

Y1 - 2009

N2 - Pure aluminum coating with a nanoscale twin structure (NT Al) was successfully deposited by using a magnetron-sputter technique. The corrosion behavior of the NT Al was investigated and compared with that of cast Al in an aqueous acidic chloride solution by using potentiodynamic polarization and an electrochemical noise technique. The results indicated that for NT Al, both the cathodic and anodic reaction processes were greatly inhibited, the corrosion potential shifted to a more positive value, and the corrosion current density apparently decreased. The NT structure affected the pitting behavior of pure aluminum in two ways based on the stochastic analysis of the electrochemical noise data: (i) the formation rate of metastable pits was accelerated and (ii) the growth of the stable pit was impeded. This leads to the enhancement of the pitting resistance for NT Al coatings.

AB - Pure aluminum coating with a nanoscale twin structure (NT Al) was successfully deposited by using a magnetron-sputter technique. The corrosion behavior of the NT Al was investigated and compared with that of cast Al in an aqueous acidic chloride solution by using potentiodynamic polarization and an electrochemical noise technique. The results indicated that for NT Al, both the cathodic and anodic reaction processes were greatly inhibited, the corrosion potential shifted to a more positive value, and the corrosion current density apparently decreased. The NT structure affected the pitting behavior of pure aluminum in two ways based on the stochastic analysis of the electrochemical noise data: (i) the formation rate of metastable pits was accelerated and (ii) the growth of the stable pit was impeded. This leads to the enhancement of the pitting resistance for NT Al coatings.

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U2 - 10.1149/1.3147257

DO - 10.1149/1.3147257

M3 - 文章

AN - SCOPUS:67650604308

SN - 0013-4651

VL - 156

SP - C240-C245

JO - Journal of the Electrochemical Society

JF - Journal of the Electrochemical Society

IS - 8

ER -

High pitting corrosion resistance of pure aluminum with nanoscale twins

Abstract

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