Abstract
The temperature dependence of the isobaric specific heat has been examined over the range 90–300 K for ethyl cyanoacetate. Phase transitions are detected whose type is dependent on the solid-state structure. The mechanisms giving the various structures are discussed.
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L. P. Filippov, Measuring Thermophysical Properties [in Russian], Moscow (1984).
E. Westram and J. McCullough, Physics and Chemistry of the Solid State for Organic Compounds [Russian translation], Moscow (1967).
D. Stall, E. Westram, and G. Zinke, The Chemical Thermodynamics of Organic Compounds [Russian translation], Moscow (1971).
T. S. Ismailov, B. G. Iskhakov, and M. G. Khodzhaeva, in: Proc. of the 5th All-Union Conference on Metrological Support to Thermophysical Measurements at Low Temperatures, [in Russian], Part 2, Khabarovsk (1988), p. 14.
V. G. Dashevskii, Conformation Analysis Applied to Organic Molecules [in Russian], Moscow (1982).
S. V. Nemilov, Fiz. Khim. Stekla,3, No. 5, 423–432 (1977).
A. R. Ubbelhode, The Molten State [Russian translation], Moscow (1982).
N. Parsonage and L. Stavely, Disorder in Crystals [Russian translation], Part 2, Moscow (1982).
G. Leibfried, The Microscopic Theory of the Mechanical and Thermal Parameters of Crystals [Russian translation], Moscow (1963).
H. Suga, Amorphous-Substance Calorimetry [in Russian], All-Union Translation Center, Translation No. G-25416, Moscow (1981).
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Iskhakov, B.G., Ismailov, T.S., Khodzhaeva, M.G. et al. Specific heat of ethyl cyanoacetate. Journal of Engineering Physics 61, 1117–1119 (1991). https://doi.org/10.1007/BF00872889
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DOI: https://doi.org/10.1007/BF00872889