Article
Thermophysical Properties of Materials
2004. V. 42. № 4. P. 565–573
Bodryakov V.Yu., Povzner A.A.
Self-consistent thermodynamic description of a nonmetallic nonferromagnetic solid (using silicon as an example)
An algorithm is developed for constructing a self-consistent thermodynamic model of the Debye type to simultaneously describe the temperature dependences of the entire complex of the basic thermal properties of a nonferromagnetic nonmetallic isotropic solid. Silicon is used as an example to demonstrate that, even within simplified model assumptions about the values of thermodynamic parameters, it is possible to make a very satisfactory self-consistent description of thermodynamic parameters of a solid in a wide temperature range of many hundreds of Kelvins.
Article reference:
Bodryakov V.Yu., Povzner A.A. Self-consistent thermodynamic description of a nonmetallic nonferromagnetic solid (using silicon as an example), High Temp., 2004. V. 42. № 4. P. 565
Bodryakov V.Yu., Povzner A.A. Self-consistent thermodynamic description of a nonmetallic nonferromagnetic solid (using silicon as an example), High Temp., 2004. V. 42. № 4. P. 565