The influence of different Mg concentrations on the mechanical properties and microstructure of an Al–Li alloy was studied. The highest Mg content was up to 1.1?wt.%. To the best of the authors knowledge, alloys with such a high Mg content has not been reported in the literature. The mechanical properties, yield strength and elongation at failure, of all of the alloys were investigated by tensile tests. Characterisation of the precipitates by analysing the dark field images and related diffraction patterns revealed that precipitation of the T1phase (Al2CuLi) was retarded by high (1.1?wt.%) Mg concentration. We hypothesized that a competition between the precipitation of T1phase and S' phase in high Mg containing alloy caused sluggish precipitation phenomenon and associated strengthening.
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