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Effects of Al and Sn on electrochemical properties of Mg-6%Al-1%Sn (mass fraction) magnesium alloy as anode in 3.5%NaCl solution

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Abstract

Mg-6%Al-1%Sn (mass fraction) alloy is a newly developed anode material for seawater activated batteries. The electrochemical properties of Mg-1%Sn, Mg-6%Al and Mg-6%Al-1%Sn alloys are measured by galvanostatic and potentiodynamic tests. Scanning electron microscopy (SEM) with energy dispersive spectrometry (EDS) is used to characterize the microstructures of the experimental alloys. The results show that the Mg-6%Al-1%Sn alloy obtains more negative discharge potential (−1.38 V (vs SCE)) in hot-rolled condition. This is attributed to the fine dynamically recrystallized grains during the hot rolling process. After the experimental alloys are annealed at 473 K for 1 h, the discharge potentials of Mg-6%Al-1%Sn alloy are more negative than those of Mg-6%Al alloy under different current densities. After annealing at 673 K, the discharge potentials of Mg-6%Al-1%Sn alloy become more positive than those of Mg-6%Al alloy. Such phenomenon is due to the coarse grains and the second phase Mg2Sn. The discharge potentials of Mg-1%Sn shift positively obviously in the discharge process compared with Mg-6%Al-1%Sn alloy. This is due to the corrosion products pasting on the discharge surface, which leads to anode polarization.

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Authors and Affiliations

  1. School of Materials Science and Engineering, Central South University, Changsha, 411083, China

    Qiao Huang  (黄俏), Kun Yu  (余琨), Shi-hai Yang  (杨士海), Li Wen  (文利), Yi-long Dai  (戴翼龙) & Xue-yan Qiao  (乔雪岩)

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  1. Qiao Huang  (黄俏)
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  2. Kun Yu  (余琨)
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  3. Shi-hai Yang  (杨士海)
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  4. Li Wen  (文利)
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  5. Yi-long Dai  (戴翼龙)
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  6. Xue-yan Qiao  (乔雪岩)
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Correspondence to Kun Yu  (余琨).

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Foundation item: Project supported by the Open Fund of the Sate Key Laboratory of Powder Metallurgy (Central South University), China

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Huang, Q., Yu, K., Yang, Sh. et al. Effects of Al and Sn on electrochemical properties of Mg-6%Al-1%Sn (mass fraction) magnesium alloy as anode in 3.5%NaCl solution. J. Cent. South Univ. 21, 4409–4414 (2014). https://doi.org/10.1007/s11771-014-2442-1

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  • DOI: https://doi.org/10.1007/s11771-014-2442-1

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