Theory of solid solutions

Aringozhina Zarina Erzhanovna

The instructor profile

Description: We study the types of solid solutions; types of solid solutions of substitution; solid solutions formed during crystallochemically different isomorphic substitutions: normal substitutions (isovalent, heterovalent), complicated substitutions (with the addition, subtraction, position replacement); qualitative thermodynamic interpretation of the influence of factors determining the formation of a solid solution.

Amount of credits: 6

Пререквизиты:

  • Physical Methods of Research

Course Workload:

Types of classes hours
Lectures 30
Practical works 30
Laboratory works
SAWTG (Student Autonomous Work under Teacher Guidance) 30
SAW (Student autonomous work) 90
Form of final control Exam
Final assessment method

Component: Component by selection

Cycle: Profiling disciplines

Goal
  • The physics of a solid body leads to the establishment of interconnections of individual atoms and molecules into gigantic communities in the form of stable-ordered systems - crystals and nanoparticles. Real crystals and amorphous bodies are quite complex, but the simple efficiency of models is a necessary step on the path of physics of complex systems.
Objective
  • Research: structure of solids, crystallography elements. elements of physical statistics, regional theory of solids. Crystal lattice dynamics. Thermal and electrical properties of solids
Learning outcome: knowledge and understanding
  • To understand the main prospects and problems that determine the field of activity with the topics of a special discipline; to master the basics of the theory of fundamental sections of physics
Learning outcome: applying knowledge and understanding
  • possess the skills of a physical experiment, have experience in working on serial equipment used in analytical and physical-chemical research; master the methods of recording and processing the results of physical experiments.
Learning outcome: formation of judgments
  • formation of an opinion on the structure of solids, elements of Crystallography, physical statistics.
Learning outcome: communicative abilities
  • Able to work independently and in a team, in the culture of social relations
Learning outcome: learning skills or learning abilities
  • with methods for determining the optimal and rational technological modes of operation of equipment;
Key reading
  • 1 Лахтин Ю.М., Материаловедение / Ю.М. Лахтин. М.: Ма-шиностроение, 1983. 582 с. 2. Арзамасов Б.Н., Материаловедение / Б.Н. Арзамасов. М.: Машиностроение, 1986. 383 с. 3. Колачев Б.А., Металловедение и термическая обработка цветных металлов и сплавов / Б.А. Колачев, В.А. Ливанов, В.И. Елагин. М.: Металлургия, 1972. 480 с.