Qiuxiang Yang scite author profile

In this study, dense anticorrosion magnesium–aluminum layered double hydroxide (MgAl-LDH) films were prepared for the first time by introducing a cationic surfactant tetradecyltrimethyl ammonium bromide (TTAB) in the process of in situ hydrothermal synthesis of Mg-Al LDH films on an AZ31 magnesium alloy. Results of XRD, FTIR, and SEM confirmed that TTAB forms the MgAl-LDH-TTAB, although TTAB cannot enter into LDH layers, and MgAl-LDH-TTAB powders are much smaller and more homogenous than MgAl-CO32−-LDH powders. Results of SEM, EDS, mapping, and XPS confirmed that TTAB forms the MgAl-LDH-TTAB films and endows LDH films with denser structure, which provides films with better shielding efficiency. Results of potentiodynamic polarization curves (PDP) and electrochemical impedance spectroscopy (EIS) confirmed that MgAl-LDH-TTABx g films have better corrosion resistance than an MgAl-CO32−-LDH film. The corrosion current density (icorr) of the MgAl-LDH-TTAB0.35 g film in 3.5 wt.% NaCl solution was reduced to 1.09 × 10−8 A.cm−2 and the |Z|f = 0.05 Hz value was increased to 4.48 × 105 Ω·cm2. Moreover, the increasing concentration of TTAB in MgAl-LDH-TTABx g (x = 0.025, 0.05, 0.1, 0.2 and 0.35) provided denser outer layer LDH films and thereby increased the corrosion resistance of the AZ31 Mg alloy. Additionally, the |Z|f = 0.05 Hz values of the MgAl-LDH-TTAB0.35 g film still remained at 105 Ω·cm2 after being immersed in 3.5 wt.% NaCl solution for 168 h, implying the good long-term corrosion resistance of MgAl-LDH-TTABx g films. Therefore, introducing cationic surfactant in the process of in situ hydrothermal synthesis can be seen as a novel approach to creating efficient anticorrosion LDH films for Mg alloys.

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Influence of the 8-quinolinol concentration and solution pH on the interfacial properties of self-healing hydrotalcite coating applied to AZ31 magnesium alloy

Anjum

Zhao

Tabish

et al. 2021

Materials Today Communications

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A Review on Understanding of Corrosion and Protection Strategies of Magnesium and Its Alloys

et al. 2022

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There remains a keen concern in magnesium (Mg) and its alloys, as they are the lightest available structural materials. Mg alloys are capable of allowing the design of lightweight engineered systems, including encouraging implications to curtail energy consumption. These alloys are also evolving available biodegradable materials and battery electrodes. Instead of the extreme historical Mg usage at present, several intrinsic drawbacks, including susceptibility to corrosion, poor formability, and low creep strength limit the extensive use of Mg alloys. This review provides an overview of ancient to modern advances in the study of Mg corrosion. It describes the effects of alloying elements and reinforcement in metal matrix composites (MMCs) on the corrosion resistance of Mg alloys. The frequent use of protective strategies and their limitations are discussed from the recent past to the current trend. This review is recognizing acquaintance gaps while also endeavoring to ascertain planned developments and guidelines.

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Qiuxiang Yang

Reviewing the current status of layered double hydroxide-based smart nanocontainers for corrosion inhibiting applications

Improving the corrosion protection ability of epoxy coating using CaAl LDH intercalated with 2-mercaptobenzothiazole as a pigment on steel substrate

Enhanced Corrosion Resistance of Layered Double Hydroxide Films on Mg Alloy: The Key Role of Cationic Surfactant

Influence of the 8-quinolinol concentration and solution pH on the interfacial properties of self-healing hydrotalcite coating applied to AZ31 magnesium alloy

A Review on Understanding of Corrosion and Protection Strategies of Magnesium and Its Alloys

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