Heat capacity and thermodynamic properties of Ba0.7La0.3F2.3 solid solution from 5 to 1000 K

The heat capacities of fluorite-type Ba0.7La0.3F2.3 solid solution were studied by adiabatic (5a347 K) and drop (357a966 K) calorimetry. Experimental data, obtained in the present paper, as well as values of Ba0.7La0.3F2.3 thermodynamic functions, calculated for a wide temperature interval, can be u...

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Published in:Thermochimica acta 2013-04, Vol.558, p.1-5
Main Authors: Gavrichev, K S, Tyurin, A V, Khoroshilov, A V, Ryumin, MA, Gurevich, V M, Fedorov, P P
Format: Article
Language:dut ; eng
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Crystal growth
Energy use
Heat capacity
Lasers
Mathematical models
Phase diagrams
Solid solutions
Specific heat
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container_title Thermochimica acta
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Tyurin, A V
Khoroshilov, A V
Ryumin, MA
Gurevich, V M
Fedorov, P P
description The heat capacities of fluorite-type Ba0.7La0.3F2.3 solid solution were studied by adiabatic (5a347 K) and drop (357a966 K) calorimetry. Experimental data, obtained in the present paper, as well as values of Ba0.7La0.3F2.3 thermodynamic functions, calculated for a wide temperature interval, can be used to estimate of energy of Gibbs of formation for modeling of phase diagram, determination of crystal growth conditions, and quantitative description of heterovalent isomorphism and features of laser optical materials.
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subjects Crystal growth
Energy use
Heat capacity
Lasers
Mathematical models
Phase diagrams
Solid solutions
Specific heat
title Heat capacity and thermodynamic properties of Ba0.7La0.3F2.3 solid solution from 5 to 1000 K
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