Nanotechnologies and new electrical materials
Description: Studying the course allows you to apply theoretical knowledge to create and operate innovative products in the field of nanomaterials and nanotechnologies. The features of methods and instruments for research, analysis and diagnostics of nanoparticles and nanomaterials, as well as new types of equipment and methods for studying nanoobjects are studied. This course covers the fundamentals of the physics of processes occurring in magnetic, conductive, semiconductor and dielectric materials. The classification of various electrical materials, their scope and requirements applied to them are given.
Amount of credits: 5
Пререквизиты:
- Introduction to Engineering
Course Workload:
| Types of classes | hours |
|---|---|
| Lectures | 30 |
| Practical works | 15 |
| Laboratory works | |
| SAWTG (Student Autonomous Work under Teacher Guidance) | 30 |
| SAW (Student autonomous work) | 75 |
| Form of final control | Exam |
| Final assessment method | Written examination |
Component: Component by selection
Cycle: Profiling disciplines
Goal
- To form a clear idea of the main nano-objects, nanomaterials and nanotechnologies, the market of nanoproducts, characteristic features, production methods and areas of application of nanoparticles and nanopowders, carbon nanostructures and nanomaterials, nanocomposite, nanoporous and bulk nanostructured materials
Objective
- fundamentals of materials science and technology of structural materials, electrical materials as components of electrical and electric power equipment
- It is capable of professional operation of modern equipment and instruments (in accordance with the objectives of the master's program) and the formulation of new research tasks based on emerging problems
Learning outcome: knowledge and understanding
- Be able to calculate the stability parameters of the main classes of organic and inorganic and electrical materials for their use in various technologies
Learning outcome: applying knowledge and understanding
- apply the basics of materials science and technology of structural materials, electrical materials as components of electrical and electric power equipment
Learning outcome: formation of judgments
- Analyse the structure and basic properties of electrical and constructional materials used in repair, operation and maintenance.
Learning outcome: communicative abilities
- Be able to use thermal and chemical-mechanical treatments to obtain the required properties of materials
Learning outcome: learning skills or learning abilities
- Apply methods of studying nanodisperse systems in scientific and practical activities
Teaching methods
Apply theoretical knowledge to create and operate innovative products in the field of nanomaterials and nanotechnologies
Key reading
- Makarov A.V. Nanostructuring frictional treatment of carbon and low-alloy steels // In the book. promising materials. Volume IV: Textbook / Ed. D.L. Merson: - Tolyatti: TSU, 2014. 434 p. - Chapter 3. S. 123-208.
- Chukin M.V., Koptseva N.V., Efimova Yu.Yu. et al. Structure and properties of nanostructured carbon structural steels: Proc. allowance. - Magnitogorsk: Publishing house of MSTU im. G.I. Nosova, 2012. - 112 p.
- Valiev R.Z., Alexandrov I.V. Bulk nanostructured metallic materials: preparation, structure and properties. - M.: ICC "Akademkniga", 2017. - 398 p.
Further reading
- Nano market: from nanotechnologies to nanoproducts / G.L. Azoev and others; ed. G.L. Azoeva: - M.: M.: BINOM. Knowledge Laboratory, 2015. 319 p.
