MSc.Thesis Defense: Yasemin Akyol
DYNAMICS OF INTERFACE REACTIONS AND METASTABLE PHASES IN MIXED ALUMINATE STRUCTURES
Yasemin Akyol
Materials Science and Nano Engineering, MSc. Thesis, 2024
Thesis Jury
Prof. Dr. Mehmet Ali Gülgün (Thesis Advisor)
Prof. Dr. Cleva W. Ow-Yang (Co-Advisor)
Prof. Dr. Selmiye Alkan Gürsel
Assoc. Prof. Aligül Büyükaksoy
Date & Time: 9th July, 2024 – 3:30 PM
Place: FENS 2019
Zoom link: https://sabanciuniv.zoom.us/j/92588588320?pwd=F8MN61wbTGWeGaGfuTiViXz6tq6BRW.1
Keywords : Aluminate Systems, Metastable Phases, Interface Reactions, Interphase, Sapphire (α-Al2O3), TEM, EELS
Abstract
Aluminate structures exhibit phase formation anomalies irrespective of the initial stoichiometry of the oxide powder mixtures. In metal oxide systems (Me2+ or Me3+), multiphases form at different cation to alumina (Mex+/Al2O3) ratios. These systems contain tetrahedral ((AlO4)5-) and/or octahedral ((AlO6)9-) polyhedra in the aluminate crystallography. The first forming phase in strontium, calcium and yttrium aluminate systems is 1:1 compound SA (SrAl2O4), CA (CaAl2O4), and YAP (YAlO3). Large cation size of Me2+ in aluminate systems was claimed to be the reason of the difficulties in diffusion.
In the presented work, first, a sol-gel Pechini method was applied to synthesize 14 compounds present in the three binary equilibrium phase diagrams of SrO-Al2O3, CaO-Al2O3, and Y2O3-Al2O3. Phase formation pathways of calcium and strontium aluminates were presented with X-ray diffractograms and quantitative Rietveld analysis. Synthesis conditions were determined to produce X-ray phase pure aluminate compounds. Characteristic fingerprints of strontium aluminates were demonstrated with Al-L2,3 Electron Energy-Loss Near Edge Structure (ELNES) edges. Secondly, Solid-state reactions were performed to investigate the effect of having tetrahedra or octahedra Al-O network by mixing carbonate particles and γ- or α-Al2O3 particles. Strontium or calcium carbonate mixture with γ-Al2O3 particles formed hexaluminate stoichiometry at 1200 °C and 1400 °C, respectively. Calcium carbonate and α-Al2O3 mixtures resulted in the formation of CA and CaAl4O7 (CA2) phases above 950 °C. When α-Al2O3 powders mixed with strontium carbonate, Sr3Al2O6 (S3A) and SA compounds were formed at 900 °C.