Dejing Zhou scite author profile

Dejing Zhou

4Publications

15Citation Statements Received

40Citation Statements Given

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147

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Tianjin University

Publications

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Corrosion behavior of a five-layer Al alloy composite plate in NaCl solution

Zhou

Wang

et al. 2023

ACMM

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Purpose This paper aims to investigate the electrochemical corrosion behavior of a five-layer Al alloy composites (4343/4047/3003/4047/4343) with a thickness of 0.2 mm in NaCl solution. Design/methodology/approach Electrochemical impedance spectroscopy, polarization curve and morphology analyses were used to study the corrosion behavior of the Al alloy composites from cross-sectional and plane directions. Findings The corrosion resistance of the surface from the plane direction was higher than that from the cross sections. Si-enrich particles were observed in the outer 4047/4343 layer, and AlFeCuMnBi phases were identified in the core 3003 layer. The galvanic coupling between the Si-enrich particle and the Al matrix accelerated the dissolution Al matrix. Originality/value This work lays the experimental foundation for corrosion mechanism of the Al alloy composite plate.

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Effect of Hg²⁺ on the corrosion behavior of Al-2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution

Xia

Zhou²,

Gao

et al. 2022

ACMM

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Purpose This paper aims to study the effect of Hg2+ on the corrosion behavior of Al–2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution. Design/methodology/approach Potentiodynamic polarization and electrochemical impedance spectroscopy are used to investigate the effect of Hg2+ on the corrosion behavior. The surface and cross-sectional morphology are characterized by scanning electron microscopy and energy dispersive spectroscopy (EDS) to further reveal the corrosion mechanism of Hg2+. Findings The results show that the corrosion behavior of the coating changes significantly as the concentration of Hg2+ increases from 5 to 30 μg/L. The corrosion production film can inhibit the corrosion process when Hg2+ concentration is in the range of 0.5–5 μg/L, while Hg2+ can promote the corrosion process significantly when its concentration reaches to 30 μg/L. The generation rate of dense oxide film on the coating surface is faster than dissolution rate when the concentration of Hg2+ is in the range of 0–5 μg/L, which makes the coating “self-healing” and thus slightly slows down the corrosion rate. The EDS analysis shows that excessive Hg2+ are preferentially deposited at locations with inhomogeneous electrochemical properties, which in turn accelerates corrosion. Originality/value The corrosion resistance of Al-based coatings is significantly affected by Hg2+ in seawater. Thus, it is important to explain the corrosion mechanism of Al–2%Zn coatings under the combined effect of Hg2+ and Cl− in 3.5 Wt.% NaCl solution.

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Effect of Cu2+ on the corrosion behavior and mechanism of Al-2 %Zn coatings in 3.5 % NaCl solution

Xia

Zhou

Gao

et al. 2022

Journal of Electroanalytical Chemistry

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Effect of loading conditions on corrosion fatigue process of FSW AA6061-T6 joint in 3.5% NaCl studied by electrochemical noise

Zhou

Xia

Gao

et al. 2023

Journal of Materials Research and Technology

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Dejing Zhou

Corrosion behavior of a five-layer Al alloy composite plate in NaCl solution

Effect of Hg²⁺ on the corrosion behavior of Al-2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution

Effect of Cu2+ on the corrosion behavior and mechanism of Al-2 %Zn coatings in 3.5 % NaCl solution

Effect of loading conditions on corrosion fatigue process of FSW AA6061-T6 joint in 3.5% NaCl studied by electrochemical noise

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Dejing Zhou

Corrosion behavior of a five-layer Al alloy composite plate in NaCl solution

Effect of Hg2+ on the corrosion behavior of Al-2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution

Effect of Cu2+ on the corrosion behavior and mechanism of Al-2 %Zn coatings in 3.5 % NaCl solution

Effect of loading conditions on corrosion fatigue process of FSW AA6061-T6 joint in 3.5% NaCl studied by electrochemical noise

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Effect of Hg²⁺ on the corrosion behavior of Al-2%Zn coatings on AA5083 in 3.5 Wt.% NaCl solution