Prof. A.E. Sergeeva, DSc (Physics & Mathematics)
Field of the scientific activity: Processes of formation and relaxation of a polarized state in polymer electrets produced from polar and nonpolar materials
1. Fedosov S.N., Sergeeva A.E. (monograph) Electrophysical properties of polymer ferroelectrics and composites Odessa: TEC, 2018. –195 p. (in Ukrainian)
2. Sergeeva A.E., Fedosov S.N. (monograph) Polarization and spatial charge in ferroelectric polymers, Odessa: TEC, 2014 – 347 p. (in Russian)
3. Revenyuk T.A., Fedosov S.N., Sergeeva A.E. (monograph) Polarization and relaxation processes in films of doped polystyrene, Odessa, 2015.– 192 p. (in Russian)
4. Rogankov O.V., Mazur V.A., Kalinchak V.V., Sergeeva A.E. Elongate coexistence curve and its curvilinear diameter as factors of global fluid asymmetry // Фізика аерозольних систем. –2017.– № 54, с. 8-29.
5. Zadorozhniy V.G., Sergeeva A.E. Influence of deposition conditions of thin polymer films in vacuum on their dielectric properties //Journal of Nano- and Electronic Physics. –2018. – vol. 10. – No 4, 04001 (7pp).
6. Fedosov S.N. and Sergeeva A.E. Distribution of the ferroelectric polarization in polyvinylidene fluoride during initial poling and polarization reversal //Journal of Nano- and Electronic Physics. – 2019. –vol.11. – No 1, 04001 (9 pp).
Prof. S.N. Fedosov, DSc (Physics & Mathematics)
Field of the scientific activity: Physical processes in piezoelectric and pyroelectric sensors and devices produced on the basis of ferroelectric polymers
1. Fedosov S.N., Sergeeva A.E. (monograph) Electrophysical properties of polymer ferroelectrics and composites Odessa: TEC, 2018. –195 p. (in Ukrainian)
2. Sergeeva A.E., Fedosov S.N. (monograph) Polarization and spatial charge in ferroelectric polymers, Odessa: TEC, 2014 – 347 p. (in Russian)
3. Revenyuk T.A., Fedosov S.N., Sergeeva A.E. (monograph) Polarization and relaxation processes in films of doped polystyrene, Odessa, 2015.– 192 p. (in Russian)
4. Fedosov S.N. and Sergeeva A.E. Distribution of the ferroelectric polarization in polyvinylidene fluoride during initial poling and polarization reversal //Journal of Nano- and Electronic Physics. – 2019. –vol.11. – No 1, 04001 (9 pp).
5. Zhukov, S., Eder-Goy, D., Biethan, C., Fedosov, S., Xu, B.-X., von Seggern, H. Tubular fluoropolymer arrays with high piezoelectric response // Smart Materials and Structures 2018. – vol. 27/ – No 1, 015010 (14 pp)
6. Zhukov, S., Eder-Goy, D., Fedosov, S., Xu, B.-X., von Seggern, H. Analytical prediction of the piezoelectric d33 response of fluoropolymer arrays with tubular air channels // Scientific Reports – 2018. – vol. 8. – No. 1, 4597 (11 pp)
7. Kaprelyants, L., Fedosov, S., Zhygunov, D. Baking properties and biochemical composition of wheat flour with bran and shorts // J. of the Science of Food and Agriculture – 2013. – vol. 93. – No 14, p. 3611-3616.
8. Dilis, V., Vasilopoulou, E., Alexieva, I., Fedosov, S., Finglas, P., Trichopoulou, A. Definition and documentation of traditional foods of the Black Sea area countries: Potential nutrition claims // Journal of the Science of Food and Agriculture – 2013. – vol. 93. – No 14, p. 3473-3477.
9. Fedosov, S.N.,von Seggern, H. Critical dependence of polarization phenomena on conductivity in ferroelectric polymers // Journal of Nano- and Electronic Physics – 2013. – vol. 5. – No. 4, 04056 (9 pp).
Prof. V.B. Rogankov, DSc (Physics & Mathematics)
Field of the scientific activity: Fluctuation and thermodynamic modeling of phase transitions and critical phenomena in simple and complex substances
1. Rogankov V.B., Levchenko V.I. Towards the equation of state for neutral (C2H4), polar (H2O), and some ionic liquids, // Journal of Thermodynamics .– 2014. –vol. 26, – 15 p.
2. Rogankov V.B. Fluctuational-thermodynamic interpretation of small angle X-ray scattering experiments in supercritical fluids // Fluid Phase Equilibria.– 2014. – vol. 383. – p.115-125.
3. Rogankov V.B., Scaling Model of Low-Temperature Transport Properties for Molecular and Ionic Liquids, // Journal of Termodynamics. – 2015. – 208486, 11 p.
4. Rogankov V.B., Rogankov O.V. Jr., Shvets M.V. Alternate basic l/b-model of effective porosity created for hydrophilic (l) and/or hydrophobic (b) moist textile materials, // Fibres & Textiles in Eastern Europe – 2016. – vol. 24. – No. 3(117). – p. 51-57.
5. Rogankov O.V., Rogankov V.B. Can the Boyle’s and critical parameters be unambiguously correlated for polar and associating fluids, liquid metals, ionic liquids? // Fluid Phase Equilibria, – 2018. – vol. 434. p. 200-210.
6. Rogankov O.V., Mazur V.A., Rogankov V.B. The critical parameters and congruent vapor-liquid diagram of ten metallic alkali and alkaline earth fluids and one H-bond organic (methanol). // Fluid Phase Equilibria – 2018. – vol. 455. – p.15-23.
7. Rogankov O.V., Mazur V.A.,Shvets M.V and Rogankov V.B. Re-established congruent vapor-liquid diagram of alkali fluid metals as alternative to crossover VLE-interpretation, // Fluid Phase Equilibria – 2018. – vol. 466. – p.79-88.
Prof. V.G. Zadorozhniy, DSc (Chemistry)
Field of the scientific activity: Physics of structuring processes in thin films deposited in a vacuum on solid substrates. Investigation of processes for obtaining amaranth oil and studying the structure of its components.
1. Zadorozhny V.G. Polischuk S.G., Keybal E.A. (monograph) Physics and chemistry of thin polymer films deposited in a vacuum. Odessa: TEC, 2013, 135 p. (in Russian)
2. Zadorozhniy V.G., Sergeeva A.E. Influence of deposition conditions of thin polymer films in vacuum on their dielectric properties //Journal of Nano- and Electronic Physics. –2018. – vol. 10. – No 4, 04001 (7pp). (in Russian)
Assoc. Prof. N.V. Lishchenko, DSc (Engineering)
Field of the scientific activity: Optimization of blade and abrasive processing of machine parts.
1. Larshin, V., Lishchenko, N. Adaptive profile gear grinding boosts productivity of this operation on the CNC machine tools // Lecture Notes in Mechanical Engineering.- 2019.-Part F2, pp. 79-88
2. Lishchenko, N.V., Larshin, V.P., Basharov, R.R. Diagnostics of drilling in numerically controlled machine tools.- //Russian Engineering Research.-2016.- 36(1), pp. 77-803.
3. Ларшин В.П. Лищенко Н.В. Исследование технологической системы зубошлифования // Перспективні технології та прилади. – Луцьк: Луцький НТУ, 2017.– Вип.10. – С.104-114.
4. Лищенко Н.В. Определение припуска на зубошлифование по его дискретным измерениям // Перспективні технології та прилади. – Луцьк: Луцький НТУ, 2017.– Вип.11. – С.168-175.
5. Ліщенко Н.В. Теоретико-імовірнісна модель для визначення припуску на зубошліфування // Вісник ТНТУ: зб. наук. праць. – Тернопіль: НТУ «ХПІ», 2018. – Вип. 1(89).– С. 89–99.
6. Lishchenko N.V. Larshin V.P Profile Gear Grinding Temperature Reduction and Equalization // Journal of Engineering Sciences. Sumy, 2018. – Vol. 5. – Issue 1– pp. A 1–A 7.
7. Лищенко Н.В. Разработка имитационной модели припуска на основе теоретико-вероятностного подхода // Резание и инструмент в технологических системах: Междунар. науч.-техн. сб.-Харьков: НТУ«ХПІ», 2018. –Вып. 88. – С.124–135.
Assoc. Prof. V.G. Murakhovskiy, PhD (Physics & Mathematics)
Field of the scientific activity: Supersonic conductors and heterosystems on their basis
