Solid-liquid interfacial energy of solid succinonitrile in equilibrium with succinonitrile-1,4-diiodobenzene eutectic liquid

Ersoy, S.; ALTINTAS, YEMLİHA; Karadag, S.; Aksoz, S.; Keslioglu, K.; MARAŞLI, Necmettin

doi:10.1007/s10973-014-4363-5

Solid-liquid interfacial energy of solid succinonitrile in equilibrium with succinonitrile-1,4-diiodobenzene eutectic liquid

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Ersoy S. B., ALTINTAS Y., Karadag S. B., Aksoz S., Keslioglu K., MARAŞLI N.

JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, vol.119, no.3, pp.1867-1874, 2015 (SCI-Expanded)

Publication Type: Article / Article
Volume: 119 Issue: 3
Publication Date: 2015
Doi Number: 10.1007/s10973-014-4363-5
Journal Name: JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
Journal Indexes: Science Citation Index Expanded (SCI-EXPANDED), Scopus
Page Numbers: pp.1867-1874
Keywords: Phase equilibria, Interfaces, Organic compounds, SURFACE ENERGIES, PIVALIC ACID, SYSTEM, ALLOYS, METALS, SOLIDIFICATION, PHASE, GROWTH, MELT, ICE
Abdullah Gül University Affiliated: Yes

Abstract

The grain boundary groove shapes for equilibrated solid SCN in equilibrium with the SCN-0.5 mol% DIB eutectic liquid have been directly observed by using a horizontal linear temperature gradient apparatus. The ratio of thermal conductivity of equilibrated liquid to thermal conductivity of solid SCN has also been determined to be 0.90. From the observed grain boundary groove shapes and measured thermal conductivity ratio, the Gibbs-Thomson coefficient (D") of solid SCN has been determined to be (5.46 +/- A 0.55) x 10(-8) K m. The solid-liquid interfacial energy (sigma (SL)) and the grain boundary energy of solid SCN have also been determined to be (8.25 +/- A 1.24) x 10(-3) J m(-2) and (15.84 +/- A 2.53) x 10(-3) J m(-2), respectively.