Effect of the heating rate on crystallization kinetics of Mg84Ni12.5Y3.5 amorphous ribbons

E. Korin; L. Soifer; D. Mogiliyanskii; Ya Soifer; I. Brodova; A. Manuhin

Effect of the heating rate on crystallization kinetics of Mg₈₄Ni_12.5Y_3.5 amorphous ribbons

E. Korin, L. Soifer, D. Mogiliyanskii, Ya Soifer, I. Brodova, A. Manuhin

Department of Chemical Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Crystallization kinetics of Mg₈₄Ni_12.5Y_3.5 amorphous ribbons produced by the melt-spinning method, was studied by DSC analysis and X-ray diffraction. The effect of heating rate (from 2 to 240 K min^-1) was investigated in the temperature range from 298 to 673 K. The results showed that the crystallization process took place in two stages: a) crystallization of part of the amorphous matrix to an intermediate phase and hcp-Mg, and b) transformation of the intermediate phase and the remaining amorphous material to Mg₂Ni+Mg (solid solution of Y in Mg). Increasing the heating rate from 2 to 240 K min^-1 results in increases of the temperature difference between the two-step crystallization of the first stage transformation processes from 33 to 56 K and in increases of the temperature difference between the two-stage transformation from 62 to 97 K.

Original language	English
Pages (from-to)	663-669
Number of pages	7
Journal	Journal of Thermal Analysis and Calorimetry
Volume	58
Issue number	3
State	Published - 1 Dec 1999

ASJC Scopus subject areas

Condensed Matter Physics
Physical and Theoretical Chemistry

Cite this

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title = "Effect of the heating rate on crystallization kinetics of Mg84Ni12.5Y3.5 amorphous ribbons",

abstract = "Crystallization kinetics of Mg84Ni12.5Y3.5 amorphous ribbons produced by the melt-spinning method, was studied by DSC analysis and X-ray diffraction. The effect of heating rate (from 2 to 240 K min-1) was investigated in the temperature range from 298 to 673 K. The results showed that the crystallization process took place in two stages: a) crystallization of part of the amorphous matrix to an intermediate phase and hcp-Mg, and b) transformation of the intermediate phase and the remaining amorphous material to Mg2Ni+Mg (solid solution of Y in Mg). Increasing the heating rate from 2 to 240 K min-1 results in increases of the temperature difference between the two-step crystallization of the first stage transformation processes from 33 to 56 K and in increases of the temperature difference between the two-stage transformation from 62 to 97 K.",

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T1 - Effect of the heating rate on crystallization kinetics of Mg84Ni12.5Y3.5 amorphous ribbons

AU - Korin, E.

AU - Soifer, L.

AU - Mogiliyanskii, D.

AU - Soifer, Ya

AU - Brodova, I.

AU - Manuhin, A.

PY - 1999/12/1

Y1 - 1999/12/1

N2 - Crystallization kinetics of Mg84Ni12.5Y3.5 amorphous ribbons produced by the melt-spinning method, was studied by DSC analysis and X-ray diffraction. The effect of heating rate (from 2 to 240 K min-1) was investigated in the temperature range from 298 to 673 K. The results showed that the crystallization process took place in two stages: a) crystallization of part of the amorphous matrix to an intermediate phase and hcp-Mg, and b) transformation of the intermediate phase and the remaining amorphous material to Mg2Ni+Mg (solid solution of Y in Mg). Increasing the heating rate from 2 to 240 K min-1 results in increases of the temperature difference between the two-step crystallization of the first stage transformation processes from 33 to 56 K and in increases of the temperature difference between the two-stage transformation from 62 to 97 K.

AB - Crystallization kinetics of Mg84Ni12.5Y3.5 amorphous ribbons produced by the melt-spinning method, was studied by DSC analysis and X-ray diffraction. The effect of heating rate (from 2 to 240 K min-1) was investigated in the temperature range from 298 to 673 K. The results showed that the crystallization process took place in two stages: a) crystallization of part of the amorphous matrix to an intermediate phase and hcp-Mg, and b) transformation of the intermediate phase and the remaining amorphous material to Mg2Ni+Mg (solid solution of Y in Mg). Increasing the heating rate from 2 to 240 K min-1 results in increases of the temperature difference between the two-step crystallization of the first stage transformation processes from 33 to 56 K and in increases of the temperature difference between the two-stage transformation from 62 to 97 K.

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M3 - Article

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Effect of the heating rate on crystallization kinetics of Mg₈₄Ni_12.5Y_3.5 amorphous ribbons

Abstract

ASJC Scopus subject areas

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