Physical processes and technologies of receiving materials

Description: The course outlines the basics of physics and chemistry of non-classical methods of obtaining materials. Nanotechnologies, additive technologies, and the production of composite materials are considered. Special attention is paid to methods and methods for improving the performance properties of materials, including the description of mechanical, thermal, electrical and magnetic effects. When presenting the material, the main attention is paid to elucidating the physical essence of the phenomenon under consideration.

Amount of credits: 5

Пререквизиты:

• Physics of Condensed State

Course Workload:

Component: Component by selection

Cycle: Base disciplines

Goal

• Creating the basics of practical and theoretical training for master students in the field of physical processes and technologies for obtaining and processing materials, allowing future masters to navigate the flow of scientific and technical information and providing them with the opportunity to use new physical principles in the areas of technology in which they specialize.

Objective

• Familiarization of undergraduates with measuring equipment, development of the ability to conduct experimental research, process the results of the experiment and analyze them. Developing the students ' creative thinking, skills of independent cognitive activity, ability to simulate physical situations with use of a computer.

Learning outcome: knowledge and understanding

• To form in the Masters the skills of applying the physical processes taking place in objects, methods of obtaining materials with given properties, understanding of methods of increasing the operational properties of products, including methods of ion-plasma application of protective coatings. Formation of scientific thinking and dialectical worldview of undergraduates. The formation of skills of independent cognitive activity, the ability to model physical conditions using computer technologies. Training students to work with modern equipment, conduct experimental research, and process measurement results.

Learning outcome: applying knowledge and understanding

• Development and implementation of technological processes for modifying materials, ensuring compliance with technological regimes in the manufacture of products, mastering new technological processes for the production of products, applying methods for quality control of new models of products. The ability to develop new equipment to be introduced, check the technical condition and residual resources of existing research equipment, and, if necessary, provide repair and restoration work at the production sites of the enterprise. The ability to perform design and design work and draw up design and technological documentation in accordance with standards, specifications and other regulatory documents.

Learning outcome: formation of judgments

• The ability to participate in working with innovative projects using basic methods of research activities based on a systematic study of scientific and technical information, domestic and foreign experience, conducting patent research.

Learning outcome: communicative abilities

• as a result of studying the discipline, the master's student should have a vision of the trends in obtaining and improving new structural materials and modern methods of their processing

Learning outcome: learning skills or learning abilities

• as a result of studying the discipline, the master's student should have a vision of the trends in obtaining and improving new structural materials and modern methods of their processing

Key reading

• 1. Павлов П. В., Хохлов А.Ф. Физика твердого тела. - М.: Высшая школа, 2000. 2. Ашкрофт Н., Мермин н. Физика твердого тела, т, 1,2. - М.: Мир, 1979. 3. Киттель Ч. Введение в физику твердого тела. - М.: Наука, 1978. 4. Киттель Ч. Квантовая теошя твердых тел. - М.: Наука, 1967. 5. Блейкмор Д. Физика твердого тела. - М.: Мир, 1988. 6. Мотт Н. , Дэвис Э. Электронные процессы в некристаллических веществах, т. 1,2. - М.: Мир, 1982.

Further reading

• 1. Давыдов А. С. Теория твердого тела. - М.: Наука, 1976. 2. Задачи по физике твердого тела. Под ред. Г.Дж. Голдсмита. М.: Наука, 1976 3. Подкладнев В.М. Физика твердого тела. Методические указания к лабораторному практикуму. КазНТУ, Алматы, 2002.