Physics of nanocomposite materials
Course: Physics of nanosystems
Structural unit: Faculty of Physics
Title
Physics of nanocomposite materials
Code
ОК 11
Module type
Обов’язкова дисципліна для ОП
Educational cycle
Second
Year of study when the component is delivered
2021/2022
Semester/trimester when the component is delivered
2 Semester
Number of ECTS credits allocated
3
Learning outcomes
To know the basic characteristics of nanocomposite materials, their connections to the composite structure and nanoparticles content
To be able to choose the type of material according to its application, propose its composition, structure, and possible ways of manufacturing.
Form of study
Full-time form
Prerequisites and co-requisites
Successful learning of the following courses: “Molecular Physics and Thermodynamics”, “Electrics and Magnetism”, “Solid State Physics”, “Nanostructured Ceramic Materials”.
Course content
The course “Physics of nanocomposite materials” improves the knowledge in the field of Condensed State Physics with the focus on the approaches of creation and investigation of compound materials with the essential content of nanostructured objects and the influence of such objects on the material properties. The discipline purpose is to teach students about the peculiarities of physics, physico-chemical, and mechanical characteristics of nanostructured hetero-phase materials based on metals, ceramics and polymers; the basic approaches to their manufacturing and testing; the general fields of their applications. Fundamental laws and concepts of the discipline have a broad application in science, particularly in Condensed State Physics and Chemistry. The course studying is essential for free scientific literature surfing and reaching the Master of Science level.
Recommended or required reading and other learning resources/tools
1. Mousumi Sen, Nanocomposite Materials, Open access peer-reviewed chapter, DOI: 10.5772/intechopen.93047.
2. Michel W. Barsoum. MAX Phases: Properties of Machinable Ternary Carbides and Nitrides. John Wiley & Sons, Inc., 2013. – 436p.
3. Subramanian M.A., Tritt T.M. Thermoelectric Materials, Phenomena, and Applications: A Bird’s Eye View // MRS Bulletin, Vol. 31, March 2006. pp. 188-230.
4. Starodumova, Tarchno, Oliynyk, Goncharenko, Shuba. Ceramic composite materials and flame resistant coverings based on hybrid gels. Charkiv: Karazin national University of Charkiv, 2017. – 104.
5. Vovk, Gevorkian, Nerubatsky et al. New ceramic composite materials for instruments. Charkiv: Karazin national University of Charkiv, 2018. – 200.
Planned learning activities and teaching methods
Lectures - 30 hours.
Self-study - 60 hours.
Assessment methods and criteria
Semester assessment: (max / min)
1. Modular test 1 on topics 1-7: PH 1.1 - 20 points / 12 points
2. Surveys during lectures: PH 1.1 - 10 points / 6 points
3. Modular test 1 on topics 8-14: PH 1.1 - 20 points / 12 points
4. Surveys during lectures: PH 2.1 - 10 points / 6 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 for it to be an overall positive grade for the course.
Language of instruction
English
Lecturers
This discipline is taught by the following teachers
Oleksii
Yurijovych
Popov
Department of Metals Physics
Faculty of Physics
Faculty of Physics
Departments
The following departments are involved in teaching the above discipline
Department of Metals Physics
Faculty of Physics