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Effects of Al3(Sc1-Zr ) nano-particles on microstructure and mechanical properties of friction-stir-welded Al-Mg-Mn alloys

Xin-wen ZHU, Ying Deng, Yi Lai, Yifan Guo, Ziang Yang, Le Fu, Guofu Xu, Jiwu Huang

2023Transactions of Nonferrous Metals Society of China18 citationsDOIOpen Access PDF

Abstract

Microstructure and mechanical properties of friction-stir-welded Al−5.50Mg−0.45Mn and Al−5.50Mg− 0.45Mn−0.25Sc−0.10Zr (wt.%) alloys were investigated by tensile tests and microscopy methods. The results show that the yield strength, ultimate tensile strength and elongation of the Al−Mg−Mn joint are (191±3) MPa, (315±1) MPa and (4.8±1.9)%, respectively. The corresponding values of the Al−Mg−Mn−Sc−Zr joint are (288±5) MPa, (391±2) MPa and (3.4±1.0)%. The Al−Mg−Mn−Sc−Zr joint has smaller grain size, lower average misorientation angle and higher low-angle grain boundary fraction than the Al−Mg−Mn joint. Both the two joints fracture at the weld nugget zone (WNZ), and Al3(Sc1−xZrx) nano-particles with a mean size of (9.92±2.69) nm still remain in this “weakest zone”. Theoretical calculation indicates that nano-particles can provide Orowan and grain boundary strengthening in WNZ, increasing the yield strength of the Al−Mg−Mn joint by 97 MPa.

Topics & Concepts

Materials scienceMicrostructureUltimate tensile strengthJoint (building)MisorientationMetallurgyWeldingGrain sizeGrain boundaryElongationComposite materialNano-Structural engineeringEngineeringAdvanced Welding Techniques AnalysisAluminum Alloys Composites PropertiesAluminum Alloy Microstructure Properties