Structural and Phase Conversions in Metals and Alloys

Description: Fundamentals of the theory of the structure of metals and alloys, to obtain modern ideas about phase and structural transformations under the influence of thermal and deformation effects, which is necessary for controlling the structure and, as a result, the operational properties of industrial metals. The fundamental principles of the theory of heat treatment allow us to analyze and predict changes in the structure.

Amount of credits: 6

Пререквизиты:

• Physical Methods of Research

Course Workload:

Component: Component by selection

Cycle: Profiling disciplines

Goal

• To form theoretical ideas about the mechanisms of structure formation in metallic materials and, on their basis, to learn how to analyze the structures of metals and alloys that arise during various processes: crystallization, deformation, different types of heat treatment and other processes.

Objective

• Learn to predict the nature of changes in the structure as a result of external influences and the direction of changes in properties; learn to identify and analyze the structural and phase components of metals and alloys.

Learning outcome: knowledge and understanding

• After studying the course, the master's student must know the basic laws of phase and structural transformations, have modern ideas about phase and structural transformations under the influence of thermal and deformation effects, which is necessary to control the structure and, as a result, the operational properties of industrial metals.

Learning outcome: applying knowledge and understanding

• Identify, describe, analyze, and predict the structure of alloys, as well as identify factors that affect it.

Learning outcome: formation of judgments

• Willingness to participate in the development of technological processes for the production and processing of coatings, materials and products made from them, and process control systems.

Learning outcome: communicative abilities

• Willingness to cooperate with colleagues, to work in a team; willingness to use the basic laws of the discipline in professional activities, to apply the methods of theoretical and experimental research.

Learning outcome: learning skills or learning abilities

• 1. Methodology of scientific knowledge 2. Apply scientific methods of cognition at the professional level 3. Solutions to standard scientific and professional tasks

Teaching methods

1. Lecture-seminar-credit system 2. Research methods 3. Information and communication technologies

Topics of lectures

• Section 1

Key reading

• 1. Лившиц Б.Г. Металлография., М.: Металлургия, 1989, стр. 672. 2. Лабораторный практикум по металлографии, ч. 1 и 2., М.:МИСиС, 1985. 3. Новиков И.И. Теория термической обработки металлов., М.:Металлургия, 1986, стр. 480. 4. Гриднев В.Н. и др. Фазовые и структурные превращения и метастабильные состояния в металлах. Наукова думка, 1988. — 264 с. — ISBN 5-12-000426-1. 5. Гуров К.П., Смирнов Е.А., Шабалин А.Н. Диффузия и кинетика фазовых превращений в металлах и сплавах. М.: МИФИ, 1990. — 78 с. 6. Попов А.А., Жилякова М.А., Зорина М.А. Фазовые и структурные превращения в металлических сплавах. Учебное пособие. — Екатеринбург: Уральский федеральный университет имени первого Президента России Б.Н. Ельцина, 2018. — 316 с. — ISBN 978-5-7996-2397-5.

Further reading

• 1. Страумал Б.Б. Фазовые переходы на границах зерен 2. Смирнов Е.А. Термодинамика фазовых превращений в металлах и сплавах