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Significant strengthening effect in ultra-fine grained Al alloy made by fast solidification and hot extrusion processes

Shuoxun Jin, Anding Wang, Kang Wang, Wenfang Li, Bingbing Wan, Tongguang Zhai

2021Journal of Materials Research and Technology27 citationsDOIOpen Access PDF

Abstract

Grain refinement with a facile process without additional alloying is quite desired for strengthening the Al alloys. Using the melt spinning process, we obtained the ultra-fine grained foils of Al–Mg–Si–Cu alloy (AA6061), then the foils followed by hot extrusion to produce the rods for industrial applications. The yield strength of the extruded melt-spun rod is 102% higher than that of the extruded rods of the alloy by a conventional direct chill casting. The electron backscatter diffraction results reveal that the average grain diameter in the extruded melt-spun sample is only 1.35 μm, indicating that the sample is an ultra-fine grained alloy. Through the Hall–Petch relationship, the finer grains contribute to a 66.9% increase in yield strength of the extruded rod. Moreover, the <111> fiber texture occupied 68% of the volume fraction after hot extrusion, contributing to 30.5% improvement of the yield strength in the extruded melt-spun sample. This study shows that the ultra-fine grained Al–Mg–Si–Cu alloy rods have excellent mechanical properties, which provides a strong potential for industrial application.

Topics & Concepts

Materials scienceExtrusionAlloyRodMelt spinningElectron backscatter diffractionMetallurgyGrain sizeTexture (cosmology)CastingYield (engineering)Volume fractionComposite materialFiberMicrostructurePathologyAlternative medicineImage (mathematics)Artificial intelligenceMedicineComputer scienceMicrostructure and mechanical propertiesAluminum Alloys Composites PropertiesAluminum Alloy Microstructure Properties
Significant strengthening effect in ultra-fine grained Al alloy made by fast solidification and hot extrusion processes | Litcius