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Nanoengineering of Composite Materials
Major: Applied Physics
Code of subject: 7.105.01.E.028
Credits: 5.00
Department: Applied Physics and Nanomaterials Science
Lecturer: Ph.D., Associate Professor. Kondyr Anatoliy Ivanovich
Semester: 2 семестр
Mode of study: денна
Learning outcomes: - to know the physico-chemical grounds of solid-phase transformations;
- to know the dimensional effects in heterogeneous nanosystems;
- to know the physical and chemical properties of nanostructured materials;
- to acquire the knowledges about quasi-equilibrium methods for forming nanostructured compositions;
- be able to synthesize multiphases nanocomposites of different functionality;
- be able to make devices of nanoelectronics based on nanocomposites.
Required prior and related subjects: - pre-requisites: Quantum Mechanics, Modern Nethods of Physical Researches, Nanomaterials Science
- co-requisites: Functional Materials of Molecular Energetics, Special Sections of Chemistry
Summary of the subject: Theoretically and experimentally study of the physical properties of nanocomposites de-pendind on a chemical composition, tempera-ture and pressure. Theoretically and experimen-tally study of the physical properties of nano-composite systems with different matrix and dispersed reinforcing phases. Nanocomposites with nanosized particles, layers and fibers. Mechanism of aggregation of reinforcing parti-cles. The phenomenon of nanoadhesionin composites. The concept of an effective size of reinforcing particles. Application of methods of the theory of fractals. Micro-mechanical, perco-lation and fractal models of composites struc-ture. Modification of nanocomposites with car-bon nanoparticles. Functionalization of fuller-enes for inserting in a fillers. Methods of design and fabrication of nanosized materials and their physical principles. Properties of nanocompo-sites. Toughness improvement of nanocompo-sites.
Assessment methods and criteria: Exam, dialogic speech, control test, differentiated test.
- currentcontrol: (40 %): dialogic speech (20%), control test (10%), differentiated tests (10%);
- final control (60%): exam – written
Recommended books: 1. Zenon Hotra, Ivan Hryhorchak, Bohdan Luki-yanets, Viktor Makhnii, Serhii Pavlov, Leonid Politanskyi, EzhyPotenski. Submikronni ta nanorozmirni struktury elektroniky: Pidruch-nyk. – Chernivtsi: Vydavnytstvo ta drukarnia «Tekhnolohichnyi Tsentr», 2014. – 839 s.
2. Pokropyvnyi V. V., Poperenko L. V. Fizyka nanostruktur. – Kyiv: Vydavnycho –polihrafichnyi tsentr «Kyivskyi universytet», 2008. – 220 s.
3. Suzdalev Y. P. Nanotekhnolohyia: fyzyko-khymyia nanoklasterov, nanostruktur y nano-materyalov / Seryia: Synerhetyka ot proshlo-ho k budushchemuiu – Moskva, 2006. – 592 s.
4. Pul Ch., Ouens F. Nanotekhnolohii. – Mosk-va: Tekhnosfera, 2004. – 328s.
5. Zaiachuk D. M. Nonotekhnolohii i nanostruktu-ry: navch. posibnyk dlia VNZ / D. M. Zaiachuk. – Lviv : Vyd-vo Nats. un-tu “Lvivska politekhni-ka”, 2009. – 581 s.
6. Nanokhimiia, nanosystemy, nanomaterialy / S. V. Volkov, Ye. P. Kovalchuk, V. M. Reshet-niak. – K. : Naukova dumka, 2008. – 426 s.
7. Kondyr A.I. Nanomaterialoznavstvo i nano-tekhnolohii: navch. posibnyk dlia VNZ / A.I Kondyr. – Lviv : Vyd-vo Nats. un-tu “Lvivska politekhnika”, 2017. – 452 s.