V. A. Konstantinov, O. I. Purskii, N. N. Zholonko
Published 2003-09-24Version 1
The thermal conductivity of solid SF6, CHCI3, C6H6, and CCl4 was investigated by the linear-flow method under saturated vapor pressures in the temperature range from 80 K to the corresponding melting temperatures and then recalculated for a constant density of the samples.The contributions of the phonon -phonon and phonon -rotation interactions to the total thermal resis tance were separated using the modified method of reduced coordinates.It is shown that the phonon- rotation contribution to the thermal resistance of the crystals decreases as the rotational motion of the molecules attains more freedom.
Comments: PDF file,6pages with 8 figures,1 table
Journal: FNT, 2003, v.29, N 9/10, p. 1021-1026
Vibrations and Heat Transfer in Glasses: the role played by Disorder
Low-temperature internal friction and thermal conductivity in plastically deformed metals due to dislocation dipoles and random stresses
Thermal conductivity of molecular crystals with self-organizing disorder
