Thermally stimulated crystallization of (20-x)LiO{sub 2}-80TeO{sub 2}-xWO{sub 3} glass system

Tellurite glasses of the (20-x)LiO{sub 2}-80TeO{sub 2}-xWO{sub 3} system were synthesized (x=0, 5, and 10) and annealed at different temperatures, and the crystallization kinetics was studied using XRD, FTIR spectroscopy, and DSC techniques. XRD data evidenced the amorphous state of as-quenched samp...

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Veröffentlicht in:	Journal of solid state chemistry 2011-05, Vol.184 (5)
Hauptverfasser:	Sidel, S.M., Capanema, W.A., Araujo, E.B., Moraes, J.C.S., Yukimitu, K.
Format:	Artikel
Sprache:	eng
Schlagworte:	ACTIVATION ENERGY ALKALI METAL COMPOUNDS AMORPHOUS STATE ANNEALING CALORIMETRY CHALCOGENIDES COHERENT SCATTERING CRYSTALLIZATION DIFFRACTION ENERGY GLASS HEAT TREATMENTS HEATING RATE INFRARED SPECTRA INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY KINETICS LITHIUM COMPOUNDS LITHIUM OXIDES MATERIALS SCIENCE OXIDES OXYGEN COMPOUNDS PHASE TRANSFORMATIONS REFRACTORY METAL COMPOUNDS SCATTERING SPECTRA SPECTROSCOPY TELLURIUM COMPOUNDS TELLURIUM OXIDES TRANSITION ELEMENT COMPOUNDS TUNGSTEN COMPOUNDS TUNGSTEN OXIDES X-RAY DIFFRACTION
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creator	Sidel, S.M. Capanema, W.A. Araujo, E.B. Moraes, J.C.S. Yukimitu, K.
description	Tellurite glasses of the (20-x)LiO{sub 2}-80TeO{sub 2}-xWO{sub 3} system were synthesized (x=0, 5, and 10) and annealed at different temperatures, and the crystallization kinetics was studied using XRD, FTIR spectroscopy, and DSC techniques. XRD data evidenced the amorphous state of as-quenched samples, while thermally treated samples showed the growth of crystalline phases. FTIR spectroscopy was used to observe the evolution of the vibrational mode assigned to the TeO{sub 2} phases. The presence of {gamma}-TeO{sub 2}, {alpha}-TeO{sub 2}, and {alpha}-Li{sub 2}Te{sub 2}O{sub 5} crystalline phases was observed for the sample TL, x=0, while only the first and second phases were observed for TLW5 and TLW10 samples, x=5 and 10, respectively, suggesting that WO{sub 3} enters the structure preferentially as glass former, inhibiting the growth of the phase {alpha}-Li{sub 2}Te{sub 2}O{sub 5}. -- Graphical abstract: Typical DSC thermogram for TLW glasses for different heating rates with insert graphic showing as the Tg is evaluated. Display Omitted Highlights: {yields} The crystallization kinetics was studied using XRD, FTIR spectroscopy, and DSC techniques. {yields} The glass transition and maximum crystallization temperatures increase when the WO{sub 3} content in the glass composition was increased. {yields} The observed asymmetry of crystallization peaks suggests an overlapping of distinct crystallization phases ({alpha}- and {gamma}-TeO{sub 2}). {yields} The WO{sub 3} enters the structure as glass former and does not participate in the crystallization of glass.
doi_str_mv	10.1016/j.jssc.2011.03.013
format	Article
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XRD data evidenced the amorphous state of as-quenched samples, while thermally treated samples showed the growth of crystalline phases. FTIR spectroscopy was used to observe the evolution of the vibrational mode assigned to the TeO{sub 2} phases. The presence of {gamma}-TeO{sub 2}, {alpha}-TeO{sub 2}, and {alpha}-Li{sub 2}Te{sub 2}O{sub 5} crystalline phases was observed for the sample TL, x=0, while only the first and second phases were observed for TLW5 and TLW10 samples, x=5 and 10, respectively, suggesting that WO{sub 3} enters the structure preferentially as glass former, inhibiting the growth of the phase {alpha}-Li{sub 2}Te{sub 2}O{sub 5}. -- Graphical abstract: Typical DSC thermogram for TLW glasses for different heating rates with insert graphic showing as the Tg is evaluated. 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XRD data evidenced the amorphous state of as-quenched samples, while thermally treated samples showed the growth of crystalline phases. FTIR spectroscopy was used to observe the evolution of the vibrational mode assigned to the TeO{sub 2} phases. The presence of {gamma}-TeO{sub 2}, {alpha}-TeO{sub 2}, and {alpha}-Li{sub 2}Te{sub 2}O{sub 5} crystalline phases was observed for the sample TL, x=0, while only the first and second phases were observed for TLW5 and TLW10 samples, x=5 and 10, respectively, suggesting that WO{sub 3} enters the structure preferentially as glass former, inhibiting the growth of the phase {alpha}-Li{sub 2}Te{sub 2}O{sub 5}. -- Graphical abstract: Typical DSC thermogram for TLW glasses for different heating rates with insert graphic showing as the Tg is evaluated. Display Omitted Highlights: {yields} The crystallization kinetics was studied using XRD, FTIR spectroscopy, and DSC techniques. {yields} The glass transition and maximum crystallization temperatures increase when the WO{sub 3} content in the glass composition was increased. {yields} The observed asymmetry of crystallization peaks suggests an overlapping of distinct crystallization phases ({alpha}- and {gamma}-TeO{sub 2}). {yields} The WO{sub 3} enters the structure as glass former and does not participate in the crystallization of glass.</abstract><cop>United States</cop><doi>10.1016/j.jssc.2011.03.013</doi></addata></record>
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subjects	ACTIVATION ENERGY ALKALI METAL COMPOUNDS AMORPHOUS STATE ANNEALING CALORIMETRY CHALCOGENIDES COHERENT SCATTERING CRYSTALLIZATION DIFFRACTION ENERGY GLASS HEAT TREATMENTS HEATING RATE INFRARED SPECTRA INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY KINETICS LITHIUM COMPOUNDS LITHIUM OXIDES MATERIALS SCIENCE OXIDES OXYGEN COMPOUNDS PHASE TRANSFORMATIONS REFRACTORY METAL COMPOUNDS SCATTERING SPECTRA SPECTROSCOPY TELLURIUM COMPOUNDS TELLURIUM OXIDES TRANSITION ELEMENT COMPOUNDS TUNGSTEN COMPOUNDS TUNGSTEN OXIDES X-RAY DIFFRACTION
title	Thermally stimulated crystallization of (20-x)LiO{sub 2}-80TeO{sub 2}-xWO{sub 3} glass system
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