Voronov Hennadii Kostantunovych

@kname.edu.ua

Department of Chemistry and Integrated Technologies
O.M. Beketov National University of Urban Economy in Kharkiv

Voronov Hennadii Kostantunovych


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https://researchid.co/hennadii_v
1999-2003 he studied at the postgraduate course at the National Technical University "Kharkiv Polytechnic Institute".
2003-2016 – Junior Researcher, Researcher and Senior Researcher at the Department of Technology of Ceramics, Refractories, Glass and Enamels, NTU “KhPI".
2004-2008 – Assistant of the Department of Technology of Ceramics, Refractories, Glass and Enamels, NTU "KhPI" (concurrently);
2008-2017 – Associate Professor of the Department of Technology of Ceramics, Refractories, Glass and Enamels, NTU "KhPI" (concurrently);
2016-2019 – Associate Professor of the Department of Technology of Ceramics, Refractories, Glass and Enamels, NTU "KhPI".
Since September 2019, Associate Professor of the Department of Chemistry and Integrated Technologies, O.M. Beketov NUUEKh.

EDUCATION

Graduated in 1999 from the National Technical University "Kharkov Polytechnic Institute" with a degree in "Chemical technologies of refractory non-metallic and silicate materials".

RESEARCH INTERESTS

Glass, glazing and composite materials
26

Scopus Publications

215

Scholar Citations

8

Scholar h-index

6

Scholar i10-index

Scopus Publications

  • Nanostructured heat-resistant glass-ceramic coatings for corrosion protection of aircraft engine components made from heat-resistant alloys
    Oksana Savvova, Hennadii Voronov, Oleksii Fesenko, Olena Babich, Oleksii Pylypenko, Yevgen Tsegelnyk
    Sustainability Safety and Applications of Nanomaterials Based Corrosion Inhibitors, 2024
    The chapter emphasizes the critical need for advanced heat-resistant coatings in aerospace, particularly aircraft engines, to meet rising demands for superior operational materials. Current alloys lack corrosion and oxidation resistance, leading to wear from chemical exposure, erosion, and thermal shock. Effective coatings provide protection against these challenges while regulating heat transfer and thermal radiation. Nanostructured coatings, especially glass-ceramic based ones with self-healing properties, offer solutions. This study develops nanostructured coatings using various glass frits and fillers to withstand temperatures up to 1000°C. Research elucidates structure formation mechanisms, highlighting high strength and heat resistance. Modification with refractory oxides forms dissipative sitallized structures, ensuring superior operational properties. Collaboration with Odesa Aviation Plant SE underscores practical application in protecting aircraft engine parts, advancing aerospace technology.
  • Biocidal Protective Glass-Ceramic Coatings for Porcelain Stoneware
    Yana Pokroeva, Oksana Savvova, Hennadii Voronov, Oleksii Fesenko, Olena Khrystych
    Lecture Notes in Networks and Systems, 2023
  • Features of the apatite-like layer formation on the surface of bioactive glass-ceramic materials in vivo
    Functional Materials, 2023
  • ANTIBACTERIAL MATTE GLASS-CERAMIC COATINGS WITH SATIN TEXTURE FOR CERAMIC TILES
    , Oksana Savvova, Yana Pokroieva, , Hennadii Voronov, , Olena Babich, , Yuliia Smyrnova, and
    Chemistry and Chemical Technology, 2023
    Antibacterial satin glass-ceramic coatings for ceramic tiles have been developed by one-stage firing on the basis of high-calcium zinc aluminum silicate frits, which are modified with heavy metal cations. The antibacterial effect of the developed matte glass-ceramic coatings with a satin texture was established due to the effect of potentiating the antibacterial activity of the combined action of the hardystonite crystalline phase and fillers of zinc and tin oxides.
  • STUDY OF MINERALIZATION OF LITHIUM CALCIUM PHOSPHOSILICATE GLASS CERAMICS IN VIVO DURING BONE TISSUE REGENERATION
    О.V. Savvova, , O.I. Fesenko, H.K. Voronov, O.V. Babich, V.V. Bitiutska, Yu.O. Smyrnova, A.O. Hopko, and
    Voprosy Khimii I Khimicheskoi Tekhnologii, 2023
    Prospective directions for the creation of biologically active substitutes for bone tissue were analyzed. The effectiveness of the use of calcium phosphosilicate materials modified with CuO, ZnO, Ag2O, Fe2O3, TiO2, SrO and Nb2O5 to ensure high biocompatibility and antibacterial properties of bone endoprostheses has been established. The prospective use of lithium calcium phosphate silicate glass ceramics for obtaining strengthened, biologically active bone implants was substantiated. The main criteria for the development of biocompatible glass-ceramic materials regarding their composition, structure, texture, and surface properties have been established. The influence of differences in the structure and resorption of calcium phosphosilicate glass ceramics on the mechanism of formation of an apatite-like layer in vivo was analyzed. The features of mineralization of calcium phosphosilicate glass ceramics in vivo during bone tissue regeneration were determined, and the effectiveness of the use of glass ceramics based on hydroxyapatite and lithium disilicate in bone tissue replacement was established to reduce the rehabilitation period and long-term use of endoprostheses under variable loads. The developed OS-7 calcium phosphosilicate glass-ceramic material is characterized by the content of crystalline phases of 10 vol.% lithium disilicate and 55 vol.% hydroxyapatite with a ratio of CaO/P2O5=1.67, surface microrelief of 6 m, surface free energy value of 75 mJ/m2 and crack resistance of 6.0 MPam1/2. This material is biocompatible due to the formation of carbonate hydroxyapatite crystals already on the 14th day, which allows us to consider its promising use in the treatment of fractures, defects of long bones and in the replacement of short or tubular bones.
  • HIGH-STRENGTH GLASS-CERAMIC MATERIAL WITH LOW TEMPERATURE FORMATION
    Oksana Savvova, , Hennadii Voronov, Oleksii Fesenko, Sviatoslav Riabinin, Vadym Tymofieiev, , , , and
    Chemistry and Chemical Technology, 2022
    Prospects for development of glass-ceramic materials on the lithium aluminosilicates base in order to increase the reliability of armor protection elements have been analyzed. Compositions of lithium aluminosilicate glasses with low content of lithium oxide have been developed, spodumene glass-ceramic materials were obtained on their base in conditions of low-temperature thermal treatment. Formation of structure of glass-ceramic materials based on model glasses after thermal treatment has been investigated and the influence of phase composition on mechanical properties has been established. It was determined that the developed glass-ceramic materials are feasible for the application against the action of high-energy munitions with significant penetrating ability, especially when used in combination with ceramic elements.
  • Influence of the Nano-and Submicron Structure of Magnesium– Aluminosilicate Glasses on the Crack Resistance of High-Strength Glass-Ceramics
    Nanosistemi Nanomateriali Nanotehnologii, 2022
    The main directions of the development of glass-ceramic materials for technical purposes, which are distinguished by a complex of high physicochemical, technological and operational properties, reduced cost and can be obtained using energy-saving and resource-saving technologies, are analysed.A detailed analysis of the state of development of cordierite glassceramic materials and the principles of their design made it possible to establish the possibility of developing high-strength materials on their base characterized by the formation of a dissipative nanostructure in the process of directed crystallization.The composition of magnesiumaluminosilicate glass is optimized by introducing a combined crystallization catalyst (ZrO 2 , TiO 2 , Sb 2 O 5 , ZnO, CeO 2 , P 2 O 5 ) to ensure the nucleation process and the formation of crystalline phases in the low-temperature range as well as the formation of a sitalized structure of a glass-ceramic material by the phase separation mechanism.As found, ensuring phase separation (800-850С) by the spinodal mechanism for experimental magnesium-aluminosilicate glass in the pre-crystallization period is an important stage in the formation of solid solutions with a high-temperature quartz structure in the low-temperature region (850-900С), spinel crystallization (900-1000С), -cordierite (980-1050С) and recrystallization of -cordierite to mullite at 1050-1100С.The main conditions for the formation of a self-organized sitalized nano-and submicron structure of glass-ceramic materials based on mullite are determined as follow: the content of phase-forming oxides (MgO, Al 2 O 3 , SiO 2 ) is of 87.0 wt.%; type and content of crystallization catalysts (TiO 2 , ZrO 2 , СеО 2 , P 2 O 5 ) is of 8.0 wt.% and content of modifying additives (SrO, CaO, B 2 O 3 ) is of 5.0 Наносистеми, наноматеріали, нанотехнології Nanosistemi, Nanomateriali, Nanotehnologii 2022, т. 20, № 3, сс.667-681  2022 ІÌÔ (Іíñòèòóò ìåòàëîôіçèêè іì.Ã. Â. Êóðäþìîâà ÍÀÍ Óêðàїíи) Надруковано в Óкраїні.
  • Nanostructured Magnesium-Aluminosilicate Glass-Ceramic Materials for Electronics and Engineering
    Oksana Savvova, Hennadii Voronov, Vadym Tymofieiev, Oleksii Fesenko, Oleksii Pylypenko, Olena Babich
    Proceedings IEEE International Conference on Electronics and Nanotechnology Elnano, 2022
    The prospects for the use of glass-ceramic materials as electrical products are analyzed. The priority of the formation of a self-organized macro- and nanostructure, glass-ceramic materials under conditions of low-temperature heat treatment to ensure their high physical and chemical properties is characterized. The effect of crystallization catalysts on the formation of the structure and viscosity of magnesium aluminosilicate glasses during their heat treatment is analyzed. The composition of magnesium aluminosilicate glass is optimized by using a combined crystallization catalyst in its composition, and an optimal heat treatment mode is established. The features of structure formation in magnesium-alumino silicate glass-ceramic materials are analyzed, which consist in the sequential course of the following stages: phase separation of glass by the spinodal mechanism $(\\mathbf{T}=800-850\\ {{}^{\\circ}}\\mathbf{C})$; nucleation of crystals of µ-cordierite $(\\mathbf{T}=850\\ {{}^{\\circ}}\\mathbf{C})$ and the formation of prismatic crystals of mulite $(\\mathbf{T}=1100\\ {{}^{\\circ}}\\mathbf{C})$, which are tightly connected. The formation of the nano- and submicron structure of the developed glass-ceramic material containing 80 vol. % mulite allows obtaining high physicochemical and electrical properties, which, along with its reduced weight, makes it promising for development as substrates in the design of a hybrid integrated circuit, vacuum-tight shell and capacitor dielectrics.
  • Using The Electrochemical Etching as A Method for The Preparation of The Titanium Surface to Get Anodic Oxide Films
    Oksana Savvova, Gennadii Voronov, Oleksii Fesenko, Olha Smirnova, Kostiantyn Zhukov, Oleksii Pylypenko
    Proceedings IEEE International Conference on Electronics and Nanotechnology Elnano, 2022
    The polarization investigations of the anode behavior of titanium in mixed organic-&-aqueous fluoride-containing electrolytes have been carried out. The polarization curves constructed for electrode processes allow us to draw a conclusion that the simultaneous behavior of several processes is possible in the specified electrolytes and these processes include chemical etching of metal due to its interaction with solution components, electrochemical dissolution under polarization conditions and the formation of the oxide film due to the anode oxidation. The prevalence of one or other type of the process in this case is defined by the electrolyte composition and the electric electrolysis parameters. The obtained data serve as a basis for the development of the new method of combined etching that provides the homogenization of the titanium surface with simultaneous elimination of toxic reagents from the process or the reduction of their concentration.
  • Study of nucleation and crystallization in magnesium aluminosilicate glasses during heat treatment
    Functional Materials, 2022
  • DEVELOPMENT OF ANTIBACTERIAL GLAZING FOR CERAMIC TILES
    O.V. Savvova, , V.V. Shevetovsky, Ya.O. Pokroeva, I.V. Zinchenko, O.V. Babich, H.K. Voronov
    Voprosy Khimii I Khimicheskoi Tekhnologii, 2022
  • Investigation of the structure glass-ceramic materials according to data of ir spectroscopy
    О.V. Savvova, , O.I. Fesenko, G.K. Voronov, V.D. Tymofieiev, O.V. Babich
    Voprosy Khimii I Khimicheskoi Tekhnologii, 2021
  • High-strength aluminosilicate glass composite materials with special electrophysical properties
    Functional Materials, 2021
  • Features of Mineralization of Hydroxyapatite on the Surface of Calcium-Silicophosphate Glass-Ceramic Materials in vivo
    Nanosistemi Nanomateriali Nanotehnologii, 2021
  • Relationship of structural parameters of surface of calcium phosphate silicate coatings on titanium alloys with their biological activity
    O. V. Savvova, , O. I. Fesenko, H. K. Voronov, M. V. Karbazin, , , and
    Himia Fizika Ta Tehnologia Poverhni, 2020
  • Features of the formation of nanostructure in lithium-aluminium-silicate glass–ceramic materials at the initial stages of nucleation
    Nanosistemi Nanomateriali Nanotehnologii, 2020
  • SOLID SOLUTIONS FORMATION MECHANISM IN CORDIERITE-MULLITE GLASS MATERIALS DURING CERAMIZATION
    Оksana Savvova, , Hennadiy Voronov, Оlena Babich, Oleksii Fesenko, Sviatoslav Riabinin, Robert Bieliakov, , , , , and
    Chemistry and Chemical Technology, 2020
  • Development of impact-resistant glass-ceramic materials for radio-transparent armor elements
    Оксана Саввова, Anatoliy Lyahovskiy, Н. К. Блинова, Hennadii Voronov, S. O. Ryabinin, et al.
    Voprosy Khimii I Khimicheskoi Tekhnologii, 2019
  • Protective impact resistant composite materials based on aluminium-silicate glass-ceramics
    O.V. Savvova and
    Functional Materials, 2019
  • Glass-ceramic materials on the lithium disilicate basis: Achievements and development prospects
    Оksana Savvova, , Gennadii Voronov, Vitalii Topchyi, Yuliya Smyrnova, , , and
    Chemistry and Chemical Technology, 2018
  • High-Strength Spodumene Glass-Ceramic Materials
    O. V. Savvova, O. V. Babich, G. K. Voronov, S. O. Ryabinin
    Strength of Materials, 2017
  • Development of glass-ceramic high-strength material for personal armor protection elements
    Оksana Savvova, , Luidmyla Bragina, Gennadii Voronov, Yuliya Sobol Yuliya Sobol, Olena Babich, Оksana Shalygina, Mykola Kuriakin, , , , , , and
    Chemistry and Chemical Technology, 2017
  • Increasing the Energy Efficiency of Container-Glass Production by Using Mineral Raw Materials
    O. V. Shalygina, G. K. Voronov, N. A. Kuryakin, A. M. Guzevataya, M. A. Gozha
    Glass and Ceramics English Translation of Steklo I Keramika, 2016
  • Influence of structural factors on physico-chemical properties of glasses and glass coatings in alkalialumoborosilicate system
    O. Shalygina and
    Functional Materials, 2016
  • Glass enamel coatings with antibacterial effect for protecting water-heaters
    O. V. Shalygina, G. K. Voronov, G. A. Loshko
    Glass and Ceramics English Translation of Steklo I Keramika, 2013
  • Effect of a complex of aliovalent cations on processes in an enamel melt-low-carbon steel system
    L. L. Bragina, G. K. Voronov
    Glass and Ceramics English Translation of Steklo I Keramika, 2008

RECENT SCHOLAR PUBLICATIONS

  • ІННОВАЦІЙНІ МЕТОДИ СТВОРЕННЯ ГІДРОФОБНИХ СКЛОКРИСТАЛІЧНИХ ПОКРИТТІВ ДЛЯ КЕРАМОГРАНІТУ
    ОВ Саввова, ЯО Покроєва, ОІ Фесенко, ГК Воронов, ОВ Бабіч, ...
    Науковий вісник будівництва, 172-179 , 2024
    2024
  • Методичні рекомендації до виконання курсового проєкту з навчальної дисципліни «Практичні питання оцінки об’єктів нерухомості» для здобувачів другого (магістерського) рівня …
    СМ Кобзан, МА Кухар
    2024
    Citations: 1
  • Інноваційні склокристалічні матеріали для пасивних високоміцних затворів лазерів з модульованою добротністю
    ОГ Тур, ОВ Саввова, ГК Воронов, ОІ Фесенко, МА Гур’єв
    Хімічні проблеми сьогодення, 96-96 , 2023
    2023
  • Люмінесцентні глазурі для керамічної плитки
    ЯО Покроєва, ОВ Саввова, ГК Воронов
    The 11 th International scientific and practical conference “Modern research … , 2023
    2023
    Citations: 1
  • Основи біоматеріалознавства: навч. посіб.
    ОВ Саввова, ГК Воронов, ОІ Фесенко, ОІ Пилипенко
    ХНУМГ ім. ОМ Бекетова , 2023
    2023
  • Структура склокерамічних матеріалів: монографія.
    ОВ Саввова, ГК Воронов, ОІ Фесенко, ЮО Смирнова, ОІ Пилипенко, ...
    ХНУМГ ім. ОМ Бекетова , 2023
    2023
    Citations: 7
  • Using the electrochemical etching as a method for the preparation of the titanium surface to get anodic oxide films
    O Savvova, G Voronov, O Fesenko, O Smirnova, K Zhukov, O Pylypenko
    2022 IEEE 41st International Conference on Electronics and Nanotechnology … , 2022
    2022
    Citations: 2
  • Анодна поведінка титанового сплаву Ti4Al6V у системі «етиленгліколь–вода–HF–NH4F»
    ОІ Пилипенко, ОВ Саввова, ГК Воронов, ОІ Фесенко, ІС Зайцева
    2022
  • Інноваційна складова конкурентоспроможності вітчизянних виробників скляної тари
    ТВ Фалько, ММ Гожа, ВВ Басюк, ОВ Саввова, ГК Воронов
    2022
  • Сучасний стан ринку стоматологічної склокераміки та перспективи його розвитку
    ВВ Бітюцька, ОВ Саввова, ГК Воронов, ОІ Фесенко
    Хімічні проблеми сьогодення, 141-141 , 2022
    2022
  • Застосування катіонів цинку при одержанні антибактеріальних глазурей для керамічної плитки
    ЯО Покроєва, ОВ Саввова, ГК Воронов, СО Коваленко
    Хімічні проблеми сьогодення, 116-116 , 2022
    2022
    Citations: 1
  • Дослідження бронестійкості склокристалічних матеріалів на основі муліту
    ВД Тимофєєв, ОВ Саввова, ГК Воронов, ВО Стороженко
    Хімічні проблеми сьогодення, 118-118 , 2022
    2022
    Citations: 2
  • Використання методу комбінованого травлення як підготовчої операції в технології оксидування титанового сплаву Ti6Al4V
    ОІ Пилипенко, ОВ Саввова, ГК Воронов, ОІ Фесенко, ІС Зайцева
    Хімічні проблеми сьогодення, 115-115 , 2022
    2022
  • ADVANCED SOLUTIONS IN THE TECHNOLOGY OF ANTIBACTERIAL CERAMIC TILES
    O Savvova, Y Pokroeva, G Voronov, S Kovalenko
    Municipal economy of cities. Series:«Economy science» , 2022
    2022
  • Electrochemical oxidation of Ti6Al4V titanium alloy in malic acid solutions
    OV Savvova, IS Zaitseva, OL Smirnova, GK Voronov, OI Fesenko, ...
    Вчені записки Таврійського національного університету імені ВІ Вернадського … , 2022
    2022
    Citations: 1
  • Історія та розвиток керамічного виробництва: навч. посіб.
    ОВ Саввова, ГК Воронов, ОІ Фесенко, ЮО Смирнова, ЯО Покроєва
    ХНУМГ ім. ОМ Бекетова , 2022
    2022
    Citations: 6
  • Розробка захисного зносостійкого прозорого склокристалічного покриття для керамогранітної плитки
    ОВ Саввова, ЯО Покроєва, ГК Воронов, ОІ Фесенко, ОВ Христич, ...
    Харків: НУЦЗУ, 2022 , 2022
    2022
    Citations: 1
  • Біоцидні склокристалічні покриття для керамограніту
    ОВ Христич, ОВ Саввова, ЯО Покроєва, ГК Воронов, ВО Стороженко
    Харків: НУЦЗУ, 2022 , 2022
    2022
  • Spodumene-containing glass-crystalline materials for technical purposes
    OV Savvova, SO Riabinin, GK Voronov, OI Fesenko, VD Timofeev
    Scientific research on refractories and technical ceramics 121, 140-149 , 2021
    2021
  • Investigation of the structure glass-ceramic materials according to data of IR spectroscopy
    OV Savova, OI Fesenko, GK Voronov, VD Tymofieiev, PV Babich
    Vopr. Khim. Khim. Tekhnol, 71-78 , 2021
    2021
    Citations: 3

MOST CITED SCHOLAR PUBLICATIONS

  • High-strength spodumene glass-ceramic materials
    OV Savvova, OV Babich, GK Voronov, SO Ryabinin
    Strength of materials 49 (3), 479-486 , 2017
    2017
    Citations: 23
  • Технології виробництва скломатеріалів: конспект лекцій для студентів для студентів 1 курсу денної форми навчання другого (магістерського) рівня вищої освіти за спеціальністю …
    ГК Воронов
    2020
    Citations: 17
  • Development of glass-ceramic high-strength material for personal armor protection elements
    O Savvova, L Bragina, G Voronov, Y Sobol, O Babich, O Shalygina, ...
    Chemistry & chemical technology, 214-219 , 2017
    2017
    Citations: 15
  • Glass-ceramic materials on the lithium disilicate basis: Achievements and development prospects
    O Savvova, G Voronov, V Topchyi, Y Smyrnova
    Chemistry & Chemical technology 12 (3), 391-399 , 2018
    2018
    Citations: 14
  • Protective impact resistant composite materials based on aluminium-silicate glass-ceramics
    OV Savvova, GK Voronov, OV Babich, VL Topchiy, OI Fesenko, ...
    Functional materials 26 (1), 182-188 , 2019
    2019
    Citations: 12
  • Енерго-та ресурсозбереження у хімічних виробництвах: конспект лекцій для здобувачів 1 курсу другого (магістерського) рівня вищої освіти денної та заочної форм навчання зі …
    ГК Воронов, ОВ Христич, ОІ Пилипенко
    2020
    Citations: 11
  • Biocompatible glass-ceramic coatings
    O Savvova, O Babitch, O Fesenko, L Bragina, H Voronov
    Calcium-phosphate-silicate coatings on titanium for dental implants.(Riga … , 2018
    2018
    Citations: 9
  • Методичні рекомендації до виконання лабораторних робіт з навчальної дисципліни «Фізика» для студентів напрямів підготовки «Комп’ютерні науки»,«Видавничо-поліграфічна справа …
    ОО Бондаренко, ВЮ Вдовьонков, ОМ Гоков, ЄА Жидко, ...
    ХНЕУ ім. С. Кузнеця , 2008
    2008
    Citations: 8
  • Структура склокерамічних матеріалів: монографія.
    ОВ Саввова, ГК Воронов, ОІ Фесенко, ЮО Смирнова, ОІ Пилипенко, ...
    ХНУМГ ім. ОМ Бекетова , 2023
    2023
    Citations: 7
  • Візантійські традиції в сучасних розписах православних храмів України (кін. ХХ–поч. ХХІ ст.): автореферат дис. канд. мистецтвознавства
    АВ Сімонова
    Харків , 2015
    2015
    Citations: 7
  • Fritte di Smalto per L'applicazione Elettrostatica a Polvere
    LL Bragina, OV Shalignina, GK Voronov, YA Pokroeva, VZ Annenkov, ...
    Smalto porcellanato: Tecnologia e mercati, 14-21 , 2010
    2010
    Citations: 7
  • Історія та розвиток керамічного виробництва: навч. посіб.
    ОВ Саввова, ГК Воронов, ОІ Фесенко, ЮО Смирнова, ЯО Покроєва
    ХНУМГ ім. ОМ Бекетова , 2022
    2022
    Citations: 6
  • Теорія та практика одержання хімічних речовин і матеріалів: конспект лекцій (для студентів 1 курсу денної форми навчання другого (магістерського) рівня вищої освіти за …
    ГК Воронов
    2020
    Citations: 6
  • High-strength aluminosilicate glass composite materials with special electrophysical properties
    OV Savvova, NK Blinova, OI Fesenko, GK Voronov, OV Babich, ...
    Functional Materials 28 (2), 279-286 , 2021
    2021
    Citations: 5
  • Development of impact-resistant glass-ceramic materials for radio-transparent armorelements
    OV Savvova, AF Lyahovskiy, NK Blinova, GK Voronov, SA Ryabinin, ...
    Voprosy Khimii i Khimicheskoi Tekhnologii 124 (3), 151-157 , 2019
    2019
    Citations: 5
  • Хімічні технології архітектурно-будівельної та технічної кераміки: конспект лекцій для студентів 1 курсу денної форми навчання другого (магістерського) рівня вищої освіти за …
    ОВ Саввова, ГК Воронов
    2020
    Citations: 4
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