Precipitation in lean Mg-Zn-Ca alloys.
2021
While lean Mg-Zn-Ca alloys are promising materials for temporary implants, questions remain on the impact of Zn and Ca. In this context, the precipitation in Mg-1.5Zn-0.25Ca (ZX20, in wt.%) was investigated upon linear heating from about room temperature to 400 C, with a particular focus on the debated ternary precipitate phase. Three exothermic differential scanning calorimetry (DSC) peaks were observed at 125, 250 and 320 C. The microstructure at the end of these peaks (205, 260 and 350 C) was probed in a multiscale correlative approach using atom probe tomography (APT) and transmission electron microscopy (TEM). At 205 C, APT analysis revealed Ca-rich, Zn-rich and Zn-Ca-rich clusters of about 3 nm in size and with a number density of 5.7 x 10^23 m^-3. At 260 C, APT and TEM showed mono-layered Zn-Ca-rich Guinier-Preston (GP) zones of about 8 nm in size and with a number density of 1.3 x 10^23 m^-3. At 350 C, there are larger, highly coherent elongated precipitates of about 50 nm in size, in a lower number density, and of two types: either binary Mg2Ca precipitates or less numerous ternary Ca2Mg6Zn3 precipitates, as deduced from scanning TEM-based energy dispersive X-ray spectrometry (EDS) and nanodiffraction in TEM. The highest hardening, probed by Vickers testing, relates to the end of the 125 C DSC peak and thus to GP zones, which outperform the hardening induced by the nanoscale clusters and the larger intermetallic particles. Precipitation in ZX20 upon linear heating was compared to the one induced by hot extrusion at 330 C. Here, ternary precipitates outnumber the binary ones and are larger, incoherent, and in a much lower number density. They are unequivocally made of hexagonal Ca2Mg5Zn5, as deduced by atomically resolved EDS mapping and scanning TEM imaging, and supported by simulations. Precipitation complexity of in lean Mg-Zn-Ca alloys and its kinetic path are discussed.
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