Physics of reaction sintering of ceramic nanocomposites
Course: Physics and Astronomy
Structural unit: Faculty of Physics
Title
Physics of reaction sintering of ceramic nanocomposites
Code
ДВА. 02.07
Module type
Вибіркова дисципліна для ОП
Educational cycle
Third
Year of study when the component is delivered
2018/2019
Semester/trimester when the component is delivered
4 Semester
Number of ECTS credits allocated
4
Learning outcomes
PLO-04. Plan and perform experimental and / or theoretical research in physics (astronomy) and related interdisciplinary fields using modern tools, critically analyze the results of their own research and the results of other researchers in the context of the whole complex of modern knowledge on the research problem.
PLO-07. Deeply understand the general principles and methods of natural sciences, as well as the methodology of scientific research, be able to apply them in their own research in physics (astronomy) and in teaching practice.
Form of study
Distance form
Prerequisites and co-requisites
1. Know the thermodynamics of physicochemical transformations.
2. Know the basic physical mechanisms of functioning of ceramic materials.
3. Know the most modern experimental methods for observing and studying the structural-phase characteristics of nanostructured materials.
4. Be able to conduct structural research and study the physical properties of ceramic nanocomposites.
5. Understand the features of the influence of structure on the physical and mechanical characteristics of ceramics.
6. Be able to evaluate the characteristics of ceramic composites with a known structure and phase composition.
Course content
The discipline covers modern experience in the science of creating ceramic composite materials with pre-predicted physical properties using in-situ reactions. The course develops the professional skills of a graduate student as an independent research developer of modern ceramic materials for various purposes. Approaches to the creation and research of ceramic materials with nanotubes, graphene and other nanoscale inclusions, as well as the features of the impact of such inclusions on the characteristics of the material will be considered. The course is based on practical experience in the structural design of ceramic nanocomposites.
Recommended or required reading and other learning resources/tools
1. Gnesin GG Ceramic tool materials. - К .: Наукова думка, 1991. - 188с.
2. О.В. Savvova. New ceramic and glass materials for special purposes. Course of lectures. - Kharkiv KhNUMG them. OM Beketova, 2020. - 106p.
3. Trokhimchuk PP Radiation solid state physics: Course of lectures.- Lutsk: RVV "Tower" Volyn. state University named after Lesya Ukrainka, 2003.- 244p.
4. O. Popov, J. Vleugels, A. Huseynov, V. Vishnyakov. Reactive sintering of TiB2-SiC-CNT ceramics // Ceramics International. Volume 45, Issue 17, Part B, 2019, Pages 22769-22774.
5. O. Popov, J. Vleugels, E. Zeynalov, V. Vishnyakov. Reactive hot pressing route for dense ZrB2-SiC and ZrB2-SiC-CNT ultra-high temperature ceramics // Journal of the European Ceramic Society, Vol. 40, # 15 2020, 5012-5019.
6. Popov O., Avramenko T., Vishnyakov V. Thermal conductivity and thermal shock resistance of TiB2-based UHTCs enhanced by graphite platelets // Materials Today Communications - Vol. 26 - 2021. - P. 101756
Planned learning activities and teaching methods
The total amount of 120 hours, including:
lectures - 18 hours;
practical classes - 4 hours;
consultations - 2 hours;
independent work - 96 hours.
Assessment methods and criteria
- semester assessment:
1. Modular test 1: 15 points / 7 points
2. Modular test 2: 15 points / 7 points
3. Protection of reports of practical works: 30 points / 18 points
- final assessment: in the form of an exam
- conditions of admission to the final exam:
Prerequisite for admission to the exam is to complete all practical work and write a modular test. An applicant is not allowed to take the exam if he / she scored less than 36 points during the semester.
Language of instruction
ukrainian
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