Infopaket

Nanostructured Ceramic Materials

ОК 4

Обов’язкова дисципліна для ОП

Second

2023/2024

1 Semester

3

To know basic physical and mechanical characteristics of ceramic nanomaterials, their connection to structure and nanoscale component content. To be able to propose ways to create ceramic nanocomposite with the preassigned structure and properties.

Full-time form

Successful learning of the following courses: “Molecular Physics and Thermodynamics”, “Electrics and Magnetism”, “Solid State Physics”, “Physics of nanocomposites” “Mechanical properties of the solid body”

During the course "Nanostructured Ceramic Materials" students expand their knowledge in physics of condensed matter. The focus is on the peculiarities of nanoceramic synthesis and on the influence of nanoparticles on properties of the materials. The purpose of the discipline is to acquaint the student with the peculiarities of physical, chemical and mechanical characteristics, synthesis methods, investigation and application of ceramic nanomaterials. Fundamental laws and concepts learned during the study of this discipline are widely used in physics, particularly in condensed matter physics and are necessary for a free review of scientific literature and further training for "Master" qualification. Teaching methods: lectures. Assessment methods: mid-semester tests, final test.

1. Gnesin. Tool ceramic materials. – К.: Наукова думка, 1991. – 188p. 2. Savova. New ceramics and glasses for special applications. Charkiv ХНУМГ ім. О. М. Бекетова, 2020. – 106p. 3. Trochimchuk. X-ray physics of the solid body: Lectures.- Lutsk: РВВ "Вежа" Lesya Ukrainka Volyn. State University, 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. O. Popov. Reaction sintering and structure designing of B-contained ceramic materials. Doctor of Science thesis. Kyiv, 2017. – 297p.

Lectures - 30 hours. Self-study - 60 hours.

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 2 on topics 8-14: PH 2.1 - 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.

Ukrainian