Abstract
The present research aims to characterize 5xxx alloy series, considering chemistries based on the commercial 5052 alloy with three Mg contents (2.4wt.%, 2.6wt.% and 3.2wt.%) through transient directional solidification experiments. Very representative incoming impurities to a given twin-roll casting procedure were reached. As such, the Si, Fe, Cu, Mn and Cr-contents in the tested samples typically trend in between the suitable alloying spectrum. Microstructural analyzes were performed using polarized light microscopy of samples taken from various ingot positions. Growth relationships between the secondary dendritic spacing (λ2) and the growth velocity were determined. The 5052 alloys containing higher Mg content may induce a decrease in λ2 for a certain growth velocity. The hardness values measured across the three directionally solidified castings were directly related to the λ2, which can be considered a fundamental variable affecting mechanical strength. For representative conditions vis-a-vis those employed in industry, it was shown that even relatively small changes in Mg content of the 5052 alloy may have some impact on λ2. These results open new ways to predict the final as-cast microstructure characterizing commercial 5052 alloy products, with a view to controlling not only the dendritic growth but also the Mg content during casting operations.
Highlights
High strength, high corrosion resistance, fair to good weldability are some characteristics related to the 5052 alloys 1-3
The optical emission spectrometry method permitted the stated average compositions in Table 1 to be determined. This method - by using an equipment model 3460 from Applied Research Laboratories - involved statistical processing of the spark pulse-generated emission spectra obtained from spark discharges in an argon atmosphere for 10 specimens of each alloy. These results confirm the nominal Mg contents aimed in this research
The basic feature of the formed grains as shown by these macrostructures is that the columnar growth prevails
Summary
High corrosion resistance, fair to good weldability are some characteristics related to the 5052 alloys 1-3. These characteristics explain why these alloys have been broadly utilized in industries such as transportation and marine. Dendritic arrangement, morphology and dimensions of the primary α-Al phase and their relationships to mechanical strength are not fully assessed to date. This is especially unnoticed if continuous and transient casting processes with the 5052 alloy are considered, as for example the twin roll casting (TRC)
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