Synergistic Effect of Zn with Ca Content on the Defectiveness and Mechanical Properties of LPBF-Printed Al–Zn–Ca Alloy

Recently developed high thermally conductive Al–Zn–Ca alloys were consolidated from powders through the laser powder bed fusion (LPBF) method. Particular attention is paid to the effect of Zn + Ca content on the defectiveness and mechanical properties of the printed samples. It was found that the printed samples of the rated composition Al–6Zn–6Ca (wt.%) were characterized by the presence of a large number of large cracks and demonstrated brittle behavior under tension loading. The total crack length increased with decreasing energy density, which is atypical for LPBF-printed materials. In printed samples with reduced zinc and calcium content of the rated composition Al–3Zn–4Ca, cracks do not form, and the ductility improves slightly (relative elongation up to 4.5%). Annealing at 400 °C for 1 h of the Al–3Zn–4Ca samples printed with a lower volumetric energy density provided a good combination of strength and ductility as well as a ductile fracture behavior.