2021
DOI: 10.1007/s10904-021-01938-x
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Theoretical and Experimental Parameters of the Structure and Crystallization Kinetics of Melt-Quenched As30Te64Ga6 Glassy Alloy

Abstract: The present framework reports the structural, fundamental parameters, and crystallization kinetics of the melt-quenched As30Te64Ga6 chalcogenide glass. The energy dispersive Xray analysis of the As30Te64Ga6 glassy system reveals that the constituent element ratio of the investigated bulk sample agrees with the nominal composition. Also, X-ray diffraction (XRD) and Differential Scanning Calorimetry (DSC) were used to characterize crystallization kinetics, and structural properties; respectively. Four characteri… Show more

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Cited by 5 publications
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“…Figure 1(a) presents DSC thermograms of As 30 Te 64 Ga 6 glasses at different heating rates from 310 K, far below the glass transition temperature up to 670 K which is well above the melting point. One can distinguish starting from lower temperature, first the glass transition with an endothermal enthalpy peak in the range 390-420 K. A first exothermic crystallization peak in the range 440-460 K corresponds to the appearance of binary crystalline phases attributed to the hexagonal phases of As 2 Te 3 and Ga 7 Te 10 as proven by XRD [18], and the second exothermic peak in the range 550-575 K corresponds to the appearance of other binary phases of the monoclinic GaTe and the hexagonal phase of Ga 2 Te 5 [18]. The melting of all crystalline phases is in the range 635-650 K. The detailed study of the crystalline phases occurring while heating or annealing on the same samples could be found elsewhere [18,19].…”
Section: Resultsmentioning
confidence: 97%
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“…Figure 1(a) presents DSC thermograms of As 30 Te 64 Ga 6 glasses at different heating rates from 310 K, far below the glass transition temperature up to 670 K which is well above the melting point. One can distinguish starting from lower temperature, first the glass transition with an endothermal enthalpy peak in the range 390-420 K. A first exothermic crystallization peak in the range 440-460 K corresponds to the appearance of binary crystalline phases attributed to the hexagonal phases of As 2 Te 3 and Ga 7 Te 10 as proven by XRD [18], and the second exothermic peak in the range 550-575 K corresponds to the appearance of other binary phases of the monoclinic GaTe and the hexagonal phase of Ga 2 Te 5 [18]. The melting of all crystalline phases is in the range 635-650 K. The detailed study of the crystalline phases occurring while heating or annealing on the same samples could be found elsewhere [18,19].…”
Section: Resultsmentioning
confidence: 97%
“…A fast quenching in an ice-water mixture to avoid the crystallization was the final step of sample preparation. The amorphous nature of the sample was checked by X-rays' diffraction (XRD) [18]. The concordance of the preparation composition and the real sample composition was also checked by EDX [18].…”
Section: Methodsmentioning
confidence: 99%
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