Infopaket

Thermodynamics of Metals and Alloys

ВК 5

Вибіркова дисципліна для ОП

First

2021/2022

6 Semester

3

Know the basic laws of thermodynamics, the method of thermodynamic potentials, general conditions of thermodynamic equilibrium, equilibrium conditions in homogeneous and heterogeneous systems. Know the theory of solutions (ideal, real, regular, athermal, dilute), quasi-chemical theory of solutions, be able to apply in practice the method of Gibbs' thermodynamic potentials, graphically determine partial and relative partial thermodynamic functions by known integrals for binary partial functions, calculate Be able to analyze the main types of state diagrams of two-component systems using isobaric-isothermal potential, calculate equilibrium curves and build state diagrams.

Full-time form

Know the laws of molecular physics and thermodynamics, statistical physics, basics of mathematical analysis. Be able to apply previous knowledge of mathematical analysis, differential and integral equations and mathematical physics to solve physical problems. Have the skills of finding derivatives and partial derivatives, finding the extremes of functions, solving equations in partial derivatives, finding derivatives of complex functions.

The course "Thermodynamics of Metals and Alloys" considers the laws and methods of phenomenological thermodynamics in application to metals and binary alloys and thermodynamic functions of heterogeneous binary systems, quasi-chemical theory of solutions, thermodynamics of nanosystems. The purpose of studying the discipline is to obtain deep and systematic knowledge of the course of phenomenological thermodynamics in the application to metals and alloys. The educational task of the course is to master the methods of description and study of thermodynamic properties of solids, mastering the methods and principles of solving applied problems in the calculation of thermodynamic functions for metals and alloys.

1. L.A. Bulavin, V.I. Lysov, S.L. Revo, V.I .Ogloblya, T.L. Tsaregradskaya. Physics of ionic-electronic liquids. Monograph. Kyiv, Kyiv University Publishing and Printing Center, 2008, 384 p. 2. А.P. Shpak, V.I. Lysov, Yu. A. Kunitsky, T.L .Tsaregradskaya. Thermodynamics of metals and alloys. Kyiv: Akademperiodika, 2002 - 71 p. 3. Lysov V.I., Tsaregradskaya T.L., Kalenyk O.O., Kunitsky Yu.A. Thermodynamic analysis of the crystallization process of alloys of the Ni-Zr system. Journal of Nano- and Electronic Physics, Vol. 10, No. 4, 2018. 04008-1 - 04008-4. doi: 10.21272 / jnep.10 (4) .04008 4. В.В. Lobanov, M.I. Terebinska, O.I. Tkachuk Thermodynamic approach to the description of the properties of nanoparticles and nanosystems. Surface. 2018. Vip. 10 (25). Pp. 179–215. doi: 10.15407 / Surface.2018.10.180 5. E.I. Kharkov, V.I. Лысов, В.Еu. Fedorov "Thermodynamics of Metals", Kiev, Higher School Publishing House, 1982

Lectures - 30 hours, self-study - 60 hours, consultations.

Interviews during the lecture, checking essays and other forms of independent work. Modular tests. Exam. Two modular tests: (24-40) points. Self-study : (12-20) points. A student is not allowed to take the exam if he / she scored less than 36 points during the semester. The grade for the exam cannot be less than 24 points to get an overall positive grade for the course.

Ukrainian