Controlling Corrosion Resistance of a Biodegradable Mg–Y–Zn Alloy with LPSO Phases via Multi-pass ECAP Process

Wang, Lisha; Jiang, Jinghua; Saleh, Bassiouny; Xie, Qiuyuan; Xu, Qian; Liu, Huan; Ma, Aibin

doi:10.1007/s40195-020-01042-y

Cited by 20 publications

(5 citation statements)

References 57 publications

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“…However, for Mg alloys, it is difficult to refine the grain size to submicron grains with the increase of the pass. Wang et al showed that the grain size decreased from 160-180 µm to 6-8 µm after twelve passes at 380 • C for Mg alloys with long-period stacking structure [61], Jiang et al reported that ultrafine equiaxed grains of 2.5 µm were obtained after sixteen passes via route A at 603 K [62]. Ma et al found that the grain size of Mg alloys decreased from 80 µm to 1.5 µm after thirty-two passes at 603 K [63].…”

Section: Grain Size From 01-1 μMmentioning

confidence: 99%

Recent Advances in the Equal Channel Angular Pressing of Metallic Materials

et al. 2022

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Applications of a metallic material highly depend on its mechanical properties, which greatly depend on the material’s grain sizes. Reducing grain sizes by severe plastic deformation is one of the efficient approaches to enhance the mechanical properties of a metallic material. In this paper, severe plastic deformation of equal channel angular pressing (ECAP) will be reviewed to illustrate its effects on the grain refinement of some common metallic materials such as titanium alloys, aluminum alloys, and magnesium alloys. In the ECAP process, the materials can be processed severely and repeatedly in a designed ECAP mold to accumulate a large amount of plastic strain. Ultrafine grains with diameters of submicron meters or even nanometers can be achieved through severe plastic deformation of the ECAP. In detail, this paper will give state-of-the-art details about the influences of ECAP processing parameters such as passes, temperature, and routes on the evolution of the microstructure of metallic materials. The evolution of grain sizes, grain boundaries, and phases of different metallic materials during the ECAP process are also analyzed. Besides, the plastic deformation mechanism during the ECAP process is discussed from the perspectives of dislocation slipping and twinning.

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Section: Grain Size From 01-1 μMmentioning

confidence: 99%

Recent Advances in the Equal Channel Angular Pressing of Metallic Materials

et al. 2022

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“…It is worth mentioning that the method of production and its parameters also influence the corrosion resistance of Mg-LPSO alloys. As reported by Wang et al [24], the number of passes during equal channel angular pressing (ECAP) has a major effect on the corrosion resistance of Mg-1Y-0.5Zn; however, there is no straightforward dependence showing that with the increasing number of ECAP passes, the corrosion resistance increases.…”

Section: Introductionmentioning

confidence: 96%

The Role of LPSO Structures in Corrosion Resistance of Mg-Y-Zn Alloys

et al. 2022

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The growing interest in improving Mg-based alloys’ corrosion properties stimulates the development of Mg-Y-Zn alloys with long-period stacking-ordered (LPSO) structures. In this work, to describe the corrosion performance of Mg-LPSO alloys, a set of experiments, including microstructure observations and corrosion testing in media containing various concentrations of chloride ions, were carried out. It was shown that the main corrosion mechanism occurring on the alloys was not only related to the volume of LPSO structures in the Mg matrix but was also dependent on their distribution. In the chloride-containing solutions, pitting was the predominant corrosion mechanism, and with the increasing chloride concentration, microgalvanic corrosion was accelerated.

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“…Additionally, they also demonstrate superior abilities to accelerate the osseointegration rate, enhance bone healing and prevent the biofilm formation [1][2][3][4]. More importantly, they have outstanding biodegradability, and their degradation products can promote the growth of new bone [5][6][7][8][9][10][11][12][13][14]. Thereby, they are deemed as promising orthopedic alternatives to traditional metal implants, such as 316L stainless steels, Ti6Al4V alloys and cobalt-chromium-based alloys [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Influence of pH on the Formation, Composition and Protectiveness of Fluoride Conversion Film Deposited on AZ31 Magnesium Alloy in KF Solution

Liu

Wei

et al. 2023

Acta Metall. Sin. (Engl. Lett.)

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In deaerated 0.1 M KF solution at pH 5, pH 7.5 and pH 9, fluoride films were deposited on AZ31 magnesium (Mg) alloy at − 1.4 V vs saturated calomel electrode (SCE). The morphology, phase composition, elemental and compositional depth distribution of different fluoride films and their influences on the corrosion resistance of AZ31 Mg alloy were explored in detail. The results indicated that the films deposited at weak acidic and nearly neutral pH consisted of two layers with amorphous Mg(OH) 2 and MgF 2 as the inner layer, and Mg(OH) 2 , MgF 2 and KMgF 3 crystals the outer layer. The film deposited at alkaline pH was a monolayer structure consisting of amorphous Mg(OH) 2 as the major constitute and MgF 2 as the minor constitute. The protectiveness of fluoride film was intimately related to its composition and structure. The content and crystal regularity of KMgF 3 were the two main factors influencing the protectiveness of fluoride film. The fluoride film deposited at pH 7.5 offered the best protection to AZ31 Mg alloy.

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Controlling Corrosion Resistance of a Biodegradable Mg–Y–Zn Alloy with LPSO Phases via Multi-pass ECAP Process

Cited by 20 publications

References 57 publications

Recent Advances in the Equal Channel Angular Pressing of Metallic Materials

Recent Advances in the Equal Channel Angular Pressing of Metallic Materials

The Role of LPSO Structures in Corrosion Resistance of Mg-Y-Zn Alloys

Influence of pH on the Formation, Composition and Protectiveness of Fluoride Conversion Film Deposited on AZ31 Magnesium Alloy in KF Solution

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