High-temperature heat capacity and thermodynamic properties of Tb2Sn2O7

被引:0
|
作者
L. T. Denisova
L. A. Irtyugo
Yu. F. Kargin
V. V. Beletskii
V. M. Denisov
机构
[1] Siberian Federal University,Institute of Nonferrous Metals and Materials Science
[2] Russian Academy of Sciences,Baikov Institute of Metallurgy and Materials Science
来源
Inorganic Materials | 2017年 / 53卷
关键词
terbium stannate; high-temperature heat capacity; thermodynamic functions;
D O I
暂无
中图分类号
学科分类号
摘要
Tb2Sn2O7 has been prepared by solid-state reaction in air at 1473 K over a period of 200 h and its isobaric heat capacity has been studied experimentally in the range 350–1073 K. The Cp(T) data for this compound have no extrema and are well represented by the classic Maier–Kelley equation. The experimental Cp(T) data have been used to evaluate the thermodynamic properties of terbium stannate (pyrochlore structure): enthalpy increment H°(T)–H°(350 K), entropy change S°(T)–S°(350 K), and reduced Gibbs energy Ф°(Т).
引用
收藏
页码:93 / 95
页数:2
相关论文
共 50 条
  • [21] High-temperature heat capacity of copper metaborate CuB2O4
    V. M. Denisov
    L. T. Denisova
    L. A. Irtyugo
    N. V. Volkov
    G. S. Patrin
    L. G. Chumilina
    Physics of the Solid State, 2012, 54 : 2142 - 2144
  • [22] High-Temperature Heat Capacity and Thermodynamic Functions of the LiNaGe4O9 Germanate
    Denisova, L. T.
    Golubeva, E. O.
    Kargin, Yu. F.
    Vasil'ev, G. V.
    Denisov, V. M.
    INORGANIC MATERIALS, 2023, 59 (07) : 777 - 781
  • [23] High-temperature crystallographic and thermodynamic investigations on synthetic zirconolite (CaZrTi2O7)
    M. Jafar
    S. Phapale
    S. N. Achary
    R. Mishra
    A. K. Tyagi
    Journal of Thermal Analysis and Calorimetry, 2018, 131 : 2709 - 2718
  • [24] High-Temperature Heat Capacity and Thermodynamic Functions of the LiNaGe4O9 Germanate
    L. T. Denisova
    E. O. Golubeva
    Yu. F. Kargin
    G. V. Vasil’ev
    V. M. Denisov
    Inorganic Materials, 2023, 59 : 777 - 781
  • [25] High-temperature crystallographic and thermodynamic investigations on synthetic zirconolite (CaZrTi2O7)
    Jafar, M.
    Phapale, S.
    Achary, S. N.
    Mishra, R.
    Tyagi, A. K.
    JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY, 2018, 131 (03) : 2709 - 2718
  • [26] Heat Capacity and Thermodynamic Properties of Gd2Ge2O7 from 350 to 1000 K
    Denisova, L. T.
    Irtyugo, L. A.
    Kargin, Yu. F.
    Beletskii, V. V.
    Belousova, N. V.
    Denisov, V. M.
    INORGANIC MATERIALS, 2020, 56 (01) : 62 - 65
  • [27] High-Temperature Heat Capacity and Thermodynamic Properties of HoBiGeO5 and ErBiGeO5
    Denisova, L. T.
    Kargin, Yu. F.
    Belousova, N. V.
    Galiakhmetova, N. A.
    Denisov, V. M.
    INORGANIC MATERIALS, 2018, 54 (09) : 920 - 924
  • [28] High-temperature heat capacity and thermodynamic properties of TbBiGeO5 and DyBiGeO5
    L. T. Denisova
    Yu. F. Kargin
    N. V. Belousova
    V. M. Denisov
    N. A. Galiakhmetova
    E. O. Golubeva
    Inorganic Materials, 2017, 53 : 1086 - 1090
  • [29] Heat Capacity and Thermodynamic Properties of Gd2Ge2O7 from 350 to 1000 K
    L. T. Denisova
    L. A. Irtyugo
    Yu. F. Kargin
    V. V. Beletskii
    N. V. Belousova
    V. M. Denisov
    Inorganic Materials, 2020, 56 : 62 - 65
  • [30] High-Temperature Heat Capacity and Thermodynamic Properties of HoBiGeO5 and ErBiGeO5
    L. T. Denisova
    Yu. F. Kargin
    N. V. Belousova
    N. A. Galiakhmetova
    V. M. Denisov
    Inorganic Materials, 2018, 54 : 920 - 924
12345