Seidel, S.S.SeidelPatzig, C.C.PatzigHöche, T.T.HöcheKrause, M.M.KrauseEbert, M.M.EbertHu, Y.Y.HuZuin, L.L.ZuinGawronski, A.A.GawronskiRüssel, C.C.Rüssel2022-03-052022-03-052016https://publica.fraunhofer.de/handle/publica/24624110.1039/c6ra10353gGlasses with the mol% composition of 51.9SiO2/21.2Al2O3/21.2MgO/5.7ZrO2 without and with the addition of 2.5 mol% Y2O3 were melted and subsequently transformed into glass-ceramics via annealing. Both glass-ceramics show strong differences in the microstructure and in the phase composition after crystallization at 950 °C for 5 h and subsequently at 1060 °C for different annealing times. In the glass without Y2O3, the main crystal phase is a quartz solid solution accompanied by the precipitation of ZrO2 and spinel. By contrast, glass-ceramics without the presence of a quartz solid solution were observed after the crystallization of the Y2O3-containing glass, using the same heat treatment. This is confirmed by analytical scanning transmission electron microscopy analysis and X-ray absorption near-edge structure spectroscopy data gathered at the Zr L2-, Y L2,3-, Si K- and Al L-edges. Furthermore, using X-ray absorption spectroscopy the coordination of the respective elements is analysed, and changes of the coordination during crystallization are monitored.enThe crystallization of MgO-Al2O3-SiO2-ZrO2 glass-ceramics with and without the addition of Y2O3-a combined STEM/XANES studyjournal article