In-situ synchrotron XRD measurements during solidification of a melt in the CaO-SiO2 system using an aerodynamic levitation system

Journal of physics / Condensed matter 33(26), 264003 (1-12) (2021). doi:10.1088/1361-648X/abf7e1 special issue: "Intense Radiation Sources in Condensed Matter and Materials Physics"
Phase formation and evolution was investigated in the CaO–SiO$_2$ system in the range of 70–80 mol% CaO. The samples were container-less processed in an aerodynamic levitation system and crystallization was followed in situ by synchrotron x-ray diffraction at the beamline P21.1 at the German electron synchrotron (DESY). Modification changes of di- and tricalcium silicate were observed and occurred at lower temperatures than under equilibrium conditions. Despite deep sample undercooling, no metastable phase formation was observed within the measurement timescale of 1 s. For the given cooling rates ranging from 300 K s$^{−1}$ to about 1 K s$^{−1}$, no decomposition of tricalcium silicate was observed. No differences in phase evolution were observed between reducing and oxidizing conditions imposed by the levitation gas (Ar and Ar + O$_2$). We demonstrate that this setup has great potential to followcrystallization in refractory oxide liquids in situ. For sub-second primary phase formation faster detection and for polymorph detection adjustments in resolution have to be implemented.
Published by IOP Publ., Bristol