Fatigue Strength Characteristics of Non-Combustible Mg Alloy (1st Report, Quantitative Comparison among Fatigue Strengths of Three Non-Combustible Mg Alloys)

Mg alloys are promising biomedical metal due to their natural degradability, good processability, and favorable mechanical properties. However, the poor corrosion resistance limits their further clinical applications. In this study, the combined strategies of surface chemical treatment and layer-by-layer self-assembly were used to prepare composite coatings on Mg alloys to improve the biocorrosion resistance. Specially, alkalized AZ91 Mg alloy generated chemical linkage with silane via Si–O–Mg covalent bond at the interface. Subsequently, Si–OH group from silane formed a crosslinked silane layer by Si–O–Si network. Further chemical assembly with graphene oxide (GO), lengthened the diffusion pathway of corrosive medium. The chemically assembled composite coatings could firmly bond to Mg alloy substrate, which persistently and effectively acted as compact barriers against corrosion propagation. Improved biocorrosion resistance of AZ91 Mg alloy with self-assembly composite coatings of silane/GO was subsequently confirmed by immersion tests. Besides, the Mg alloy exhibited good wear resistance due to outside layer of GO with a lubricant effect. Cell viability of higher than 75% had also been found for the alloy with self-assembly composite coatings, which showed good cytocompatibility.

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Friction Stir Welding of Dissimilar Formed Mg Alloys (AZ31/AZ91)

Materials Science Forum ◽

10.4028/www.scientific.net/msf.486-487.249 ◽

2005 ◽

Vol 486-487 ◽

pp. 249-252 ◽

Cited By ~ 3

Author(s):

Chang Yong Lee ◽

Won Bae Lee ◽

Yun Mo Yeon ◽

Seung Boo Jung

Keyword(s):

Friction Stir Welding ◽

Dynamic Recrystallization ◽

Tensile Test ◽

Intermetallic Compounds ◽

Grain Growth ◽

Weld Zone ◽

Mg Alloys ◽

Mg Alloy ◽

Friction Stir ◽

Az31 Mg Alloy

Friction stir welding of dissimilar formed Mg alloys(AZ31/AZ91) was successfully carried out at the limited welding conditions. In a sound joint, SZ was mainly consisted of AZ31 Mg alloy which was located the retreating side. Dynamic recrystallization and grain growth occurred and β intermetallic compounds of AZ 91 Mg alloy was not observed in SZ. BM had a higher hardness than that of the weld zone. The fracture location was not weld zone but BM of the AZ91 Mg alloy in tensile test.

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Weldability: Effect of Alloying Element Sc, Mn, and Zr on Alloys of the Al-Mg-Sc-Mn-Zr System

Encyclopedia of Aluminum and Its Alloys ◽

10.1201/9781351045636-140000408 ◽

2019 ◽

Author(s):

V. I. Lukin

Keyword(s):

Aluminum Alloys ◽

Practical Importance ◽

Strength Properties ◽

Strength Characteristics ◽

Mg Alloy ◽

Alloying Element ◽

Processing Properties ◽

Alloys Of The Al ◽

Effect Of Alloying

Scandium in aluminum alloys behaves as the most efficient modifier of the structure of the material and as an agent suppressing recrystallization. This unique behavior of scandium in alloys of the Al-Mg system greatly increases the strength characteristics, whilst retaining on a higher level the ductility and processing properties of deformed semi-finished products. This article describes the effect of complex alloying the Al-6.3% Mg alloy with scandium, manganese and zirconium on the weldability and strength properties of the material is of considerable scientific and practical importance.Investigations.

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