Comparison on corrosion resistance and surface film of pure Mg and Mg−14Li alloy

To study different corrosion resistances and surface film types of hexagonal close-packed (HCP) pure Mg and body-centered cubic (BCC) Mg−14wt.%Li alloy in 0.1 mol/L NaCl, a series of experiments were conducted, including hydrogen evolution, mass loss, in-situ electrochemical testing combined with Ra...

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Published inTransactions of Nonferrous Metals Society of China Vol. 30; no. 9; pp. 2413 - 2423
Main Authors LI, Chuan-qiang, TONG, Zhi-pei, HE, Yi-bin, HUANG, Huai-pei, DONG, Yong, ZHANG, Peng
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2020
Subjects
corrosion resistance
electrochemical testing
in-situ electrochemical-Raman spectroscopy
Mg−Li alloy
surface film
Mg−Li alloy
in-situ electrochemical-Raman spectroscopy
surface film
corrosion resistance
electrochemical testing
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Abstract To study different corrosion resistances and surface film types of hexagonal close-packed (HCP) pure Mg and body-centered cubic (BCC) Mg−14wt.%Li alloy in 0.1 mol/L NaCl, a series of experiments were conducted, including hydrogen evolution, mass loss, in-situ electrochemical testing combined with Raman spectroscopy and microstructural observation. The results indicate that the corrosion resistance of pure Mg is superior to that of Mg−14Li, and the protective function of the surface films on both magnesium systems is elevated within 16 h of immersion in 0.1 mol/L NaCl. An articulated, thick, and needle-like surface film containing Li2CO3 on Mg−14Li, different from the typically thin, flaky Mg(OH)2 film on pure Mg, is confirmed via scanning electron microscopy (SEM). However, both surface films can be broken down at a high anodic over-potential. Thus, different corrosion resistances of the two Mg systems are ascribed to various protective films forming on their surfaces.
AbstractList To study different corrosion resistances and surface film types of hexagonal close-packed (HCP) pure Mg and body-centered cubic (BCC) Mg−14wt.%Li alloy in 0.1 mol/L NaCl, a series of experiments were conducted, including hydrogen evolution, mass loss, in-situ electrochemical testing combined with Raman spectroscopy and microstructural observation. The results indicate that the corrosion resistance of pure Mg is superior to that of Mg−14Li, and the protective function of the surface films on both magnesium systems is elevated within 16 h of immersion in 0.1 mol/L NaCl. An articulated, thick, and needle-like surface film containing Li2CO3 on Mg−14Li, different from the typically thin, flaky Mg(OH)2 film on pure Mg, is confirmed via scanning electron microscopy (SEM). However, both surface films can be broken down at a high anodic over-potential. Thus, different corrosion resistances of the two Mg systems are ascribed to various protective films forming on their surfaces.
Author HE, Yi-bin
ZHANG, Peng
TONG, Zhi-pei
HUANG, Huai-pei
LI, Chuan-qiang
DONG, Yong
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in-situ electrochemical-Raman spectroscopy
surface film
corrosion resistance
electrochemical testing
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Snippet To study different corrosion resistances and surface film types of hexagonal close-packed (HCP) pure Mg and body-centered cubic (BCC) Mg−14wt.%Li alloy in 0.1...
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SubjectTerms corrosion resistance
electrochemical testing
in-situ electrochemical-Raman spectroscopy
Mg−Li alloy
surface film
Title Comparison on corrosion resistance and surface film of pure Mg and Mg−14Li alloy
URI https://dx.doi.org/10.1016/S1003-6326(20)65388-2
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