화학공학소재연구정보센터
Journal of Chemical Thermodynamics, Vol.71, 126-132, 2014
The vibrational and configurational entropy of alpha-brass
The heat capacities of two samples of a fcc Cu-Zn alloy with the composition CuZn15 and CuZn34 were measured from T = 5 K to 573 K using relaxation and differential scanning calorimetry. Below similar to 90 K, they are characterised by negative excess heat capacities deviating from ideal mixing by up to -0.20 and -0.44 J center dot mol(-1) K-1 for CuZn15 and CuZn34, respectively. The excess heat capacities produce excess vibrational entropies, which are less negative compared to the excess entropy available from the literature. Since the literature entropy data contain both, the configurational and the vibrational part of the entropy, the difference is attributed to the excess configurational entropy. The thermodynamics of different short-range ordered samples was also investigated. The extent of the short-range order had no influence on the heat capacity below T = 300 K. Above T = 300 K, where the ordering changed during the measurement, the heat capacity depended strongly on the thermal history of the samples. From these data, the heat and entropy of ordering was calculated. The results on the vibrational entropy of this study were also used to test a relationship for estimating the excess vibrational entropy of mixing. (C) 2013 The Authors. Published by Elsevier Ltd. All rights reserved.