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Crystallization behavior of (GeTe4)(x)(GaTe3)(100-x) glasses for far-infrared optics applications
Year: 2019
Type of publication: článek v odborném periodiku
Name of source: Journal of Alloys and Compounds
Publisher name: Elsevier Science SA
Place: Lausanne
Page from-to: 564-571
Titles:
Language Name Abstract Keywords
cze Krystalizační chování (GeTe4)(x)(GaTe3)(100-x) skel for dalekou infračervenou oblast aplikací DSC, XRD, iR mikroskopie a Ramanova spektroskopie byly použity pro studium krystalizačního chování (GeTe4)(x)(GaTe3)(100-x) skel pro aplikace v oblasti dalekého infračerveného spektra. Byly nalezeny dva mezávislé krystalizační procesy, které se překrývaly a byly přiřazeny počáteční povrchové precipitaci fází Te a Ga2Te5, následované tvorbou GeTe fáze. Ge-Ga-Te skla; krystalizační kinetika; DSC; XRD; sklokeramika
eng Crystallization behavior of (GeTe4)(x)(GaTe3)(100-x) glasses for far-infrared optics applications Differential scanning calorimetry (DSC), X-ray diffraction (XRD), infrared microscopy and Raman spectroscopy were used to study the crystallization behavior of the (GeTe4)(x)(GaTe3)(100-x) glasses for far-infrared optics. Two independent overlapping crystallization processes were found - the initial surface-located precipitation of hexagonal Te and Ga2Te5 phases, followed by formation of the rhombohedral GeTe phase. The initial precipitation process, and in particular the formation of the Ga2Te5 phase, was found to be catalyzed by presence of mechanically induced defects. Finely powdered materials with higher GaTe3 content also exhibited more pronounced separation of the two crystallization sub-processes. Glass stability of the prepared glasses was evaluated in terms of the Hruby criterion - the (GeTe4)(86)(GaTe3)(14) composition was found to be the most stable and most resilient to the negative crystallization-enhancing influence of structure defects. Pros and cons of the compositional evolution of the crystallization behavior (determined via full kinetic description of the involved crystallization subprocesses and kinetic prediction of the crystallization behavior) were discussed with regard to the ceramics and glass-ceramics applications. Glasses with low GaTe3 content appear to be most suitable for preparation of fully ceramic materials, whereas glasses with high GaTe3 content seem to be most suitable for the glass-ceramics applications. (C) 2018 Elsevier B.V. All rights reserved. Ge-Ga-Te glasses; Crystallization kinetics; DSC; XRD; Glass-ceramics

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