Article
Heat and Mass Transfer and Physical Gasdynamics
2017. V. 55. № 1. P. 114–119
Kirsanov Yu.A., Kirsanov A.Yu., Yudakhin A.E.
Measurement of thermal relaxation and temperature damping time in solid
Differential equations of thermal conductivity of solid body are presented, a result of Fourier, Cattaneo-Vernotte, and two-phase delay hypotheses. The experimental setup and automated measuring system is described for the study of transient thermal processes in solid. The solution of the boundary problem of the third kind is given with differential equations of thermal conductivity of parabolic and hyperbolic types. The results of experimental and theoretical study of transient thermal processes in the plate center are given in the sudden immersion into a hot environment. Based on the comparison of theoretical transient processes with recorded automated measuring system, the adequacy of hypotheses and corresponding differential equations of thermal conductivity are concluded with respect to short-term transient processes. Thermal relaxation and temperature damping constants for PMMA are measured.
Article reference:
Kirsanov Yu.A., Kirsanov A.Yu., Yudakhin A.E. Measurement of thermal relaxation and temperature damping time in solid, High Temp., 2017. V. 55. № 1. P. 114
Kirsanov Yu.A., Kirsanov A.Yu., Yudakhin A.E. Measurement of thermal relaxation and temperature damping time in solid, High Temp., 2017. V. 55. № 1. P. 114