Abstract
AA1050/AA7050 multilayered composite sheets with a proportion of 1:1 were produced by Accumulative Roll Bonding (ARB) and Asymmetric Accumulative Roll-Bonding (AARB), using up to 8 cycles and intermediate annealing treatments at 500°C. The main purpose was to produce one composite sheet with high strength and moderate ductility, taking advantage of the mechanical properties of these aluminum alloys. Microstructural features were investigated in order to evaluate the potential to achieve a refined microstructure and the development of structural patterns. The strain distributions as a function of friction and asymmetry were simulated by finite element analysis. Texture was evaluated by X-ray diffraction and electron backscatter diffraction. A continuous layer pattern was obtained by ARB, up to 6 cycles but after 8 cycles shear bands fragmented the harder layers. In the early AARB cycles, the bending and necking of the AA7050 layers yielded a wavy-pattern. The shear strain in the AARB process has a strong influence on achieving a wavy-pattern, more than the flow stress differences of the alloys in the composite. Shear texture increased with the degree of the layers’ discontinuity. Different sources of shear contributed to the formation of microstructural patterns: the shear due to asymmetry, the frictional shear at roll-sheet interface and at the central layer interface and the shear at the layers’ interface. In addition, the ARB process achieved a better interfacial adhesion at the middle interface and higher strength and elongation than the AARB process.
Highlights
Severe Plastic Deformation (SPD) techniques have attracted growing interest because they can induce an intense grain refinement
A few investigations have been performed using other dissimilar systems processed by both Accumulative Roll Bonding (ARB) and Accumulative Roll-Bonding (AARB) (Ng et al, 2013; Wierzba et al, 2015; Mendes et al, 2017; Magalhães et al, 2020a) but no study has demonstrated if the interfacial integrity and tensile properties were improved
In this work was investigate the influence of external shear and friction on the macrostructural pattern formation and final tensile properties during accumulative roll-bonding of two dissimilar aluminum alloys
Summary
Severe Plastic Deformation (SPD) techniques have attracted growing interest because they can induce an intense grain refinement. The AARB is able to produce ultrafine-grained structures, and enhance mechanical response, as reported in earlier works (Mi et al, 2011; Wang et al, 2012; Ng et al, 2013; Wierzba et al, 2015; de Godoi et al, 2020; Magalhães et al, 2020b). It remains unclear if the AARB really helps to achieve a stronger interface for Al-based multilayered composites. A few investigations have been performed using other dissimilar systems processed by both ARB and AARB (Ng et al, 2013; Wierzba et al, 2015; Mendes et al, 2017; Magalhães et al, 2020a) but no study has demonstrated if the interfacial integrity and tensile properties were improved
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
