Трофимов Евгений Алексеевич

Hirsch index: 
РИНЦ 23
Scopus 21
Web of Science 19
Russian scientific profiles: 
РИНЦ: SPIN-код 4425-3683, Author ID 137506
Scopus ID: 57188954124
Web of Science ResearcherID: L-4201-2017
Articles and monographs: 
(CoFeMnCuNiCr)3O4 High-Entropy Oxide Nanoparticles Immobilized on Reduced Graphene Oxide as Heterogeneous Catalysts for Solvent-Free Aerobic Oxidation of Benzyl Alcohol / Mehrabi-Kalajahi, S. //ACS Applied Nano Materials.–2024.–Vol. 7 No. 5.– P.5513-5524
Accurate simulation of texture evolution and mechanical response of cubic and hexagonal structural alloys using self-consistent polycrystal plastic method / S.. Zhang //Journal of Alloys and Compounds.–2024.–Vol. 987
Achieving ultrafine lamellar structure and exceptional electrochemical properties of Fe35Mn27Ni28Co5Cr5 high-entropy alloy through severe cold rolling process / Naseri, M. //Materials Today Communications.–2024.–Vol. 39
Effect of intermetallic compounds on the high-temperature oxidation resistance of Al0.25CoCrFeNiCuAux (x = 0, 0.1, 0.3) high-entropy alloys / Samoilova, O. //Materials Today Communications.–2024.–Vol. 38
Effect of Silver Addition on Microstructure, Phase Composition, Microhardness and Surface Oxide Layer Formation of Al0.5CoCrCu0.5FeNi and Al0.5CoCrCuFeNi High-Entropy Alloys / Samoilova, O. //Physical Mesomechanics.–2024.–Vol. 27 No. 2.– P.183-196
Embracing entropy in glass-ceramics / Ostovari Moghaddam, A. //Ceramics International.–2024.–Vol. 50 No. 17.– P.29178-29184
Enhancing the mechanical properties of high-entropy alloys through severe plastic deformation: A review / Naseri, M. //Journal of Alloys and Metallurgical Systems.–2024.–Vol. 5
Microstructural Evolution of High-Entropy Intermetallic Compounds during Detonation Spraying / Ostovari Moghaddam, A. //Metals.–2024.–Vol. 14 No. 1
Modified embedded-atom method interatomic potentials for the Al-Mn, Ti-Mn and Cu-Mn binary alloys / Ostovari Moghaddam, A. //Materials Letters.–2024.–Vol. 359
Obtaining high-entropy alloy coating by laser remelting of metal powder composition: mathematical modelling of the transient thermal state / Yachikov, I.M //Metallurgist.–2024.–Vol. 67 No. 11-12.– P.1886-1900
Reusable high-entropy oxide environmental photocatalyst towards toxic Cr(VI) reduction with tailored bandgap via solution combustion synthesis / Mariappan, A. //Advanced Powder Technology.–2024.–Vol. 35 No. 5
Shanmugavel, S. Survey of diverse hydrometallurgy techniques for recovering and extracting valuable metals from PCB waste: an overview / S.. Shanmugavel, A.. Mariappan, T.. Evgeny Alekseevich //International Journal of Environmental Science and Technology.–2024
Study of Microstructure, Phase Composition and Oxidation Resistance of High-Entropy Alloys Al0.25CoCrFeNi and Al0.25CoCrFeNiCuAgx (x = 0, 0.1, 0.2) / Samoilova, O. //Inorganic Materials: Applied Research.–2024.–Vol. 15 No. 4.– P.1091-1099
The behavior of Al0.5CoCrFeNiCuPt0.3 high-entropy alloy during high-temperature oxidation / Samoilova, O. //HIGH TEMPERATURE CORROSION OF MATERIALS.–2024
Upgrading the strength-ductility trade-off and wear resistance of Al0.25CoCrFeNiCu and Al0.45CoCrFeNiSi0.45 high-entropy alloys through severe cold rolling process / Naseri, M. //Materials Today Communications.–2024.–Vol. 38
Высокотемпературное окисление высокоэнтропийных сплавов AlxCoCrFeNiAg0,1 (x = 0,25
0,5) / О.В. Самойлова //Металлы (*англ. Russian Metallurgy (Metally)).–2024 № 1.– C.24-35
Изучение микроструктуры, фазового состава и стойкости к окислению высокоэнтропийных сплавов Al0,25CoCrFeNi и Al0,25CoCrFeNiCuAgx (x = 0
0,1
0,2) / О.В. Самойлова //Материаловедение.–2024 № 2.– C.3-11
A comprehensive review on fusion welding of high entropy alloys – Processing, microstructural evolution and mechanical properties of joints / Sonar, T. //International Journal of Lightweight Materials and Manufacture.–2023.–Vol. 7 No. 1.– P.122-183
A critical review on solid-state welding of high entropy alloys– processing, microstructural characteristics and mechanical properties of joints / Sonar, T. //Defence Technology.–2023
An overview of microstructure, mechanical properties and processing of high entropy alloys and its future perspectives in aeroengine applications / Sonar, T. //Materials Science for Energy Technologies.–2023.–Vol. 7.– P.35-60
Corrosion Resistance of Al0.5CoCrFeNiCuxAgy (x=0.25, 0.5
y=0, 0.1) High-Entropy Alloys in 0.5M H2SO4 Solution / Samoilova, O. //Materials.–2023.–Vol. 16 No. 9
Detonation Spraying of Ni-Based Composite Coatings Reinforced by High-Entropy Intermetallic Particles / Ostovari Moghaddam, A. //Metals.–2023.–Vol. 13 No. 11
Effect of Au addition on the corrosion behavior of Al0.25CoCrFeNiCu0.25 high-entropy alloy in 0.5 M H2SO4 solution / Samoilova, O. //Materials Letters.–2023.–Vol. 350
Effect of configurational entropy on phase formation, structure, and magnetic properties of deeply substituted strontium hexaferrites / Zhivulin, V.E //Ceramics International.–2023.–Vol. 49 No. 1.– P.1069-1084
Effect of Pt Addition on the Oxidation and Corrosion Resistance of Al0.25CoCrFeNi High-Entropy Alloy / Samoilova, O. //Metals.–2023.–Vol. 13 No. 10
Exploration of mechanical properties of hemp fiber/flax fiber reinforced composites based on biopolymer and epoxy resin / A.. Shebaz //Materials Today: Proceedings.–2023
High entropy BaFe12-x(Ti/Mn/Ga/In)xO19 (x = 1–7) oxides: Correlation of the composition, entropy state, magnetic characteristics, and terahertz properties / Y.. Yao //Ceramics International.–2023.–Vol. 49 No. 19.– P.31549-31558
High-entropy alloy coating deposition by detonation spraying combined with heat treatment / I.. Batraev //International Journal of Advanced Manufacturing Technology.–2023.–Vol. 129 No. 5-6.– P.2647-2659
Improving strength-ductility synergy of nano/ultrafine-structured Al/Brass composite by cross accumulative roll bonding process / Naseri, M. //Journal of Materials Research and Technology.–2023.–Vol. 26.– P.6794-6806
Insights into the Mechanical Properties and Correlation Between Strain Path and Crystallographic Texture of the AA2024 Alloy During Severe Plastic Deformation / Naseri, M. //Metals and Materials International.–2023
Mariappan, A. Synthesis, Properties, and Applications of High- Entropy Oxide Ceramics: Current Progress and Future Perspectives / A.. Mariappan, E.. Trofimov //Journal of Alloys and Compounds.–2023.–Vol. 960
Methods for the Calculation and Control of Launch Vehicle Drop Regions / Kapelyushin, Y. //Aerospace.–2023.–Vol. 10 No. 5
Microsegregation in high-entropy intermetallic compounds / Trofimov, E. //Journal of Alloys and Compounds.–2023.–Vol. 934
Microstructure and Wear Behavior of Al0.25CoCrFeNiSi0.6 High-Entropy Alloy Coating Deposited on Stainless Steel by Detonation Spraying / Samoilova, O. //Journal of Thermal Spray Technology.–2023
Preparation, phase stability, and magnetization behavior of high entropy hexaferrites / Zhivulin, V.E //iScience.–2023.–Vol. 26 No. 7
Sudarsan, S. Synthesis and characterization of copper ferrite nanocomposite from discarded printed circuit boards as an effective photocatalyst for Congo red dye degradation / S.. Sudarsan, M.. Anandkumar, E.A. Trofimov //Journal of Industrial and Engineering Chemistry.–2023
Synthesis and characterization of intermetallic compounds with one medium- or high-entropy sublattice occupied by p-block elements / Trofimov, E. //Materials Chemistry and Physics.–2023.–Vol. 301
Synthesis and Characterization of Nanocrystalline High Entropy Heusler Intermetallics Powders / Ostovari Moghaddam, A. //Metals and Materials International.–2023
Synthesis and characterization of novel high entropy Heusler intermetallics / Ostovari Moghaddam, A. //Intermetallics.–2023.–Vol. 159
Synthesis and Structure of Bulky Single Crystals of High-Entropy Ferrites BaFe12–x(Ti, Mn, In, Ga)xO19 / Cherkasova, N. //Journal of Structural Chemistry.–2023.–Vol. 64 No. 5.– P.757-765
SYNTHESIS OF PBFE2.4X2.4Y2.4GA2.4IN2.4O19 HIGH-ENTROPY OXIDES WITH THE MAGNETOPLUMBITE STRUCTURE / Zaitseva, O. //Nanosystems: Physics, Chemistry, Mathematics.–2023.–Vol. 14 No. 3.– P.354-362
Thermal, morphology and bacterial analysis of pH-responsive sodium carboxyl methylcellulose/ fumaric acid/ acrylamide nanocomposite hydrogels: Synthesis and characterization / Sudarsan, S. //Heliyon.–2023.–Vol. 9 No. 11
Ultrafine lamellar microstructures for enhancing strength-ductility synergy in high-entropy alloys via severe cold rolling process / Naseri, M. //Journal of Alloys and Compounds.–2023.–Vol. 965
Unraveling new single phase high entropy stannide by experimental screening of the as-cast samples / Trofimov, E. //Materials Letters.–2023.–Vol. 335
Use of laser cladding for the synthesis of coatings from high-entropy alloys reinforced with ceramic particles / A.B. Naizabekov //Case Studies in Construction Materials.–2023.–Vol. 19
Utilization of ferrous slags as coagulants, filters, adsorbents, neutralizers/stabilizers, catalysts, additives, and bed materials for water and wastewater treatment: A review / Sahu, J.N //Chemosphere.–2023.–Vol. 325
ВЛИЯНИЕ ЛЕГИРОВАНИЯ СЕРЕБРОМ ВЫСОКОЭНТРОПИЙНЫХ СПЛАВОВ AL05COCRCU05FENI И AL05COCRCUFENI НА МИКРОСТРУКТУРУ, ФАЗОВЫЙ СОСТАВ, МИКРОТВЕРДОСТЬ И ФОРМИРОВАНИЕ ПОВЕРХНОСТНОГО ОКСИДНОГО СЛОЯ / О.В. Самойлова //Физическая мезомеханика.–2023.–Том 26 № 6.– C.85-99
Получение покрытия из высокоэнтропийного сплава методом лазерного переплава композиции металлических порошков: математическое моделирование нестационарного теплового состояния / И.М. Ячиков //Металлург (*англ. Metallurgist).–2023 № 12.– C.69-78
A Feasibility Study of High-Entropy Alloy Coating Deposition by Detonation Spraying Combined with Laser Melting / I.S. Batraev //Materials.–2022.–Vol. 15 No. 13
Al0.25CoCrFeNiSi0.6 high entropy alloy with high hardness and improved wear resistance / Samoilova, O. //Materials Letters.–2022.–Vol. 328
Al0.25CoCrFeNiV High Entropy Alloy Coating Deposited by Laser Cladding on Stainless Steel / Samoilova, O. //Materials.–2022.–Vol. 15 No. 20
A-site cation size effect on structure and magnetic properties of Sm(Eu,Gd)Cr0.2Mn0.2Fe0.2CO0.2Ni0.2O3 high-entropy solid solutions / Vinnik, D. //Nanomaterials.–2022.–Vol. 12 No. 1
Corrosion Resistance of Alx CoCrFeNiM (M = Ti, V, Si, Mn, Cu) High Entropy Alloys in NaCl and H2 SO4 Solutions / S.. Pratskova //Metals.–2022.–Vol. 12 No. 2
Creation and Magnetic Study of Ferrites with Magnetoplumbite Structure Multisubstituted by Al3+, Cr3+, Ga3+, and In3+ Cations / Zhivulin, V. //Nanomaterials.–2022.–Vol. 12 No. 8
Deposition of High-Entropy Alloy Coating by Cold Spray Combined with Laser Melting: Feasibility Tests / A.A. Sova //Journal of Thermal Spray Technology.–2022.–Vol. 31 No. 4.– P.1112-1128
Effect of Electromagnetic Pulses on the Microstructure and Abrasive Gas Wear Resistance of Al0.25CoCrFeNiV High Entropy Alloy / Samoilova, O. //Coatings.–2022.–Vol. 12 No. 5
Entropy-stabilized metal oxide nanoparticles supported on reduced graphene oxide as a highly active heterogeneous catalyst for selective and solvent-free oxidation of toluene: a combined experimental and numerical investigation / S.. Mehrabi-Kalajahi //Journal of Materials Chemistry A.–2022.–Vol. 10 No. 27.– P.14488-14500
FeCoNiCu Alloys Obtained by Detonation Spraying and Spark Plasma Sintering of High-Energy Ball-Milled Powders / V.. Ulianitsky //Journal of Thermal Spray Technology.–2022.–Vol. 31 No. 4.– P.1067-1075
High entropy intermetallic coatings fabricated by detonation spraying / Ostovari Moghaddam, A. //Materials Letters.–2022.–Vol. 311
High temperature oxidation resistance of W-containing high entropy alloys / Ostovari Moghaddam, A. //Journal of Alloys and Compounds.–2022.–Vol. 897
Impact of the A-site rare-earth ions (Ln3+ – Sm3+, Eu3+, Gd3+) on structure and electrical properties of the high entropy LnCr0.2Mn0.2Fe0.2Co0.2Ni0.2O3 perovskites / Zhivulin, V. //Ceramics International.–2022.–Vol. 48 No. 7.– P.9239-9247
Microstructural evolution of Al0.25CoCrFeNiCu and Al0.45CoCrFeNiSi0.45 high-entropy alloys during laser cladding / Samoilova, O. //Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications.–2022
Novel high entropy intermetallic compounds: Synthesis and detonation spraying / Ostovari Moghaddam, A. //Intermetallics.–2022.–Vol. 146
Phase formation, microhardness and magnetic properties of FeNiCrV-TiNb, (NiCoFeCuMn)3(AlTi) and (FeNiCoCrMn)(MoCr) high entropy intermetallic compounds / Ostovari Moghaddam, A. //Journal of Alloys and Compounds.–2022.–Vol. 912
Recent trends in layered double hydroxides based electrochemical and optical (bio)sensors for screening of emerging pharmaceutical compounds / H.. Sohrabi //Environmental Research.–2022.–Vol. 211
Segregation mediated design of single-phase refractory medium and high entropy intermetallic compounds with complete suppression of pest oxidation / Ostovari Moghaddam, A. //Journal of Alloys and Compounds.–2022.–Vol. 927
Segregation peculiarities in high entropy intermetallic compounds / Ostovari Moghaddam, A. //Materials Letters.–2022.–Vol. 318
ВЛИЯНИЕ ЗАМЕЩЕНИЯ ЖЕЛЕЗА АЛЮМИНИЕМ И ТИТАНОМ В ГЕКСАФЕРРИТЕ БАРИЯ BAFE(12-2X)TIXALXO19 НА СТРУКТУРУ И СВОЙСТВА / И.А. Солизода //Вестник Южно-Уральского государственного университета. Серия «Химия».–2022.–Том 14 № 1.– C.105-113
Изучение коррозионной стойкости высокоэнтропийного сплава Al0,5CoCrFeNi1,6Ti0,7 в морской воде / О.В. Самойлова //Вестник Южно-Уральского государственного университета. Серия «Металлургия».–2022.–Том 22 № 1.– C.33-41
Изучение стойкости к высокотемпературному окислению высокоэнтропийного сплава Al0,25CoCrFeNiSi0,6 / О.В. Самойлова //Черная металлургия. Бюллетень научно-технической и экономической информации.–2022.–Том 78 № 11.– C.978-986
Перспективы применения высокоэнтропийных сплавов для техники при криогенных температурах / И.И. Сулейманова //EURASTRENCOLD-2022.–2022.– C.418-422
A novel intermediate temperature self-lubricating CoCrCu1-xFeNix high entropy alloy fabricated by direct laser cladding / Ostovari Moghaddam, A. //Tribology International.–2021.–Vol. 156
Additive manufacturing of high entropy alloys: A practical review / Ostovari Moghaddam, A. //Journal of Materials Science and Technology.–2021.–Vol. 77.– P.131-162
Anisotropy of the electrical properties of a single crystal of BaFe11.25Ti0.75O19 M-type barium hexaferrite / Zhivulin, V. //Journal of Solid State Chemistry.–2021.–Vol. 298
Cold Spray of Metal Powder Mixtures: Achievements, Issues and Perspectives / A.. Sova //Transactions of the Indian Institute of Metals.–2021
Correlation of the fe content and entropy state in multiple substituted hexagonal ferrites with magnetoplumbite structure / Trukhanov, A. //Ceramics International.–2021.–Vol. 47 No. 12.– P.17684-17692
Ferrite-Based Solid Solutions: Structure Types, Preparation, Properties, and Potential Applications / Vinnik, D. //Inorganic Materials.–2021.–Vol. 57 No. 11.– P.1109-1118
Formation of metal composites by detonation spray of powder mixtures / V.. Ulianitsky //International Journal of Advanced Manufacturing Technology.–2021.–Vol. 117 No. 1-2.– P.81-95
High temperature oxidation resistance of Al0.25CoCrFeNiMn and Al0.45CoCrFeNiSi0.45 high entropy alloys / A.. Ostovari Moghaddam //Vacuum.–2021.–Vol. 192
High-Temperature Oxidation Behavior of Al xCoCrFeNiM (M = Cu, Ti, V) High-Entropy Alloys / Shaburova, N. //Physical Mesomechanics.–2021.–Vol. 24 No. 6.– P.653-662
High-temperature oxidation of high-entropic alloys: A review / Veselkov, S.N //Materials.–2021.–Vol. 14 No. 10
Impact of Al3+ ions on magnetic and microwave properties of BaM:Ti hexaferrites / Zhivulin, V. //Journal of Materials Research and Technology.–2021.–Vol. 11.– P.2235-2245
In Situ Medium Entropy Intermetallic Reinforced Composite Coating Fabricated by Additive Manufacturing / A.. Ostovari Moghaddam //Metals.–2021.–Vol. 11 No. 7
New high-entropy oxide phases with the magnetoplumbite structure / Zhivulin, V. //IOP Conference Series: Materials Science and Engineering.–2021.–Vol. 1014
New high-entropy oxide phases with the perovskite structure / Zaitseva, O. //IOP Conference Series: Materials Science and Engineering.–2021.–Vol. 1014 No. 1
On the application of NbTaTiVW refractory high entropy alloy particles in the manufacturing process of WC based matrix body drill bits / A.. Ostovari Moghaddam //International Journal of Refractory Metals and Hard Materials.–2021.–Vol. 99
Ostovari Moghaddam, A. Does the pathway for development of next generation nuclear materials straightly go through high-entropy materials? / A.. Ostovari Moghaddam, A.. Cabot, E.. Trofimov //International Journal of Refractory Metals and Hard Materials.–2021.–Vol. 97
Ostovari, A. Toward expanding the realm of high entropy materials to platinum group metals: A review / A.. Ostovari, E.. Trofimov //Journal of Alloys and Compounds.–2021.–Vol. 851
Phase formation and thermoelectric properties of Zn1+xSb binary system / Ostovari Moghaddam, A. //Transactions of Nonferrous Metals Society of China.–2021.–Vol. 31 No. 3.– P.753-763
Polysubstituted high-entropy [land](Cr0.2 mn0.2 fe0.2 co0.2 ni0.2)o3 perovskites: Correlation of the electrical and magnetic properties / Zhivulin, V. //Nanomaterials.–2021.–Vol. 11 No. 4
Properties of WC–10%Co–4%Cr Detonation Spray Coating Deposited on the Al–4%Cu–1%Mg Alloy / Samodurova, M.N //Materials.–2021.–Vol. 14 No. 5
Single-Phase Medium- to High-Entropy Alloys Developed by a Simple Thermodynamic Approach / Ostovari Moghaddam, A. //JOM.–2021.–Vol. 73 No. 11.– P.3430-3438
Structure and composition of Fe-Co-Ni and Fe-Co-Ni-Cu coatings obtained by detonation spraying of powder mixtures / V.. Ulianitsky //Materials Letters.–2021.–Vol. 290
Высокотемпературное окисление высокоэнтропийных сплавов систем AlxCoCrFeNiM (M = Cu, Ti, V) / Н.А. Шабурова //Физическая мезомеханика.–2021.–Том 24 № 4.– C.28-39
РЕАЛИЗАЦИЯ ПРОЦЕССА НАНЕСЕНИЯ ПОКРЫТИЯ МЕДЬ-ВОЛЬФРАМ МЕТОДОМ ХОЛОДНОГО ГАЗОДИНАМИЧЕСКОГО НАПЫЛЕНИЯ / Ю.С. Латфулина //Вестник Магнитогорского государственного технического университета им. Г.И. Носова, Vestnik of Nosov Magnitogorsk State Technical University.–2021.–Том 19 № 2.– C.40-49
A Study of Characteristics of Aluminum Bronze Coatings Applied to Steel Using Additive Technologies / Samodurova, M.N //Materials.–2020.–Vol. 13 No. 2
Conversion of end-of-life cotton banknotes into liquid fuel using mini-pyrolysis plant / Yousef, S. //Journal of Cleaner Production.–2020.–Vol. 267
Correlation between entropy state, crystal structure, magnetic and electrical properties in M-type Ba-hexaferrites / Vinnik, D.A //Journal of the European Ceramic Society.–2020
Crystal growth, structural characteristics and electronic structure of Ba1-xPbxFe12O19 (x = 0.23–0.80) hexaferrites / Vinnik, D. //Journal of Alloys and Compounds.–2020.–Vol. 844
Effect of treatment conditions on structure and magnetodielectric properties of barium hexaferrites / Vinnik, D. //Journal of Magnetism and Magnetic Materials.–2020.–Vol. 498 No. -
Flux single crystal growth of BaFe12−xTixO19 with titanium gradient / Zhivulin, V.E //Crystals.–2020.–Vol. 10 No. 4
High entropy oxide phases with perovskite structure / Vinnik, D.A //Nanomaterials.–2020.–Vol. 10 No. 2
Influence of titanium substitution on structure, magnetic and electric properties of barium hexaferrites BaFe12−xTixO19 / Vinnik, D. //Journal of Magnetism and Magnetic Materials.–2020.–Vol. 498 No. -
Phase diagram of pyrene with 2,3-7,8-dibenzpyrene-1,6-quinone / Zherebtsov, D.A //Journal of Thermal Analysis and Calorimetry.–2020.–Vol. 139 No. 3.– P.1925-1929
Samoilova, O.V Effect of the Phase Composition and the Microstructure on the Microhardness of As-Cast Cu–Ce–La Alloys / O.V. Samoilova, E.A. Trofimov //Russian Metallurgy (Metally).–2020.–Vol. 2020 No. 2.– P.83-88
The new extremely substituted high entropy (Ba,Sr,Ca,La)Fe6-x(Al,Ti,Cr,Ga,In,Cu,W)xO19 microcrystals with magnetoplumbite structure / Vinnik, D.A //Ceramics International.–2020.–Vol. 46 No. 7.– P.9656-9660
Vinnik, D. The conditions and results of ferrite based on multicomponent crystal formation in high entropic oxide systems / D.. Vinnik, E.. Trofimov, V.. Zhivulin //Solid State Phenomena.–2020.–Vol. 299.– P.246-251
Синтез и структура керамики бизамещенного феррита M-типа BaFe(11,5-x)Ti0,5AlxO19 / И. Солизода //Вестник Южно-Уральского государственного университета. Серия «Химия».–2020.–Том 12 № 4.– C.110-119
Твердофазный синтез многокомпонентной керамики (Mg,Ca,Ba,Sr,Pb,Al,Ti,Nb)O3 со структурой перовскита / В.Е. Живулин //Вестник Южно-Уральского государственного университета. Серия «Химия».–2020.–Том 12 № 3.– C.108-115
A study of the structural characteristics of titanium alloy products manufactured using additive technologies by combining the selective laser melting and direct metal deposition methods / Samodurova, M.N //Materials.–2019.–Vol. 12 No. 19
Development of Experimental Approach for the Phase Equilibria Study of Arsenic-Containing Systems / S.. Sineva //Journal of Phase Equilibria and Diffusion.–2019.–Vol. 40 No. 6.– P.802-809
Effect of thermal processing on particle size of carbide phase, hardness and corrosion resistance of multilayer composite material, based on uddeholm elmax and AISI420MOV steels / Dil’Din, A.N //Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya.–2019.–Vol. 62 No. 6.– P.461-466
Extremely Polysubstituted Magnetic Material Based on Magnetoplumbite with a Hexagonal Structure: Synthesis, Structure, Properties, Prospects / Vinnik, D. //Nanomaterials.–2019.–Vol. 9 No. 4
Flux single crystal growth of M-type strontium hexaferrite SrFe12O19 by spontaneous crystallization / Vinnik, D.A //Journal of Magnetism and Magnetic Materials.–2019.–Vol. 470 No. -.– P.97-100
High-entropy oxide phases with magnetoplumbite structure / Vinnik, D.A //Ceramics International.–2019.–Vol. 45 No. 10.– P.12942-12948
Samoilova, O.V A Study of the Magnetic Characteristics of Cu–Mn–Bi Alloys / O.V. Samoilova, E.A. Trofimov, V.I. Geraskin //Russian Metallurgy (Metally).–2019 No. 11.– P.1212-1219
Samoilova, O.V Effect of cerium and lanthanum additives on the phase composition of the copper-nickel alloys / O.V. Samoilova, E.A. Trofimov, E.R. Vakhitova //Materials Science Forum.–2019.–Vol. 946 No. -.– P.123-128
Synthesis, structure and properties of barium and barium lead hexaferrite / Gudkova, S.A //Journal of Magnetism and Magnetic Materials.–2019.–Vol. 470 No. -.– P.101-104
Thermodynamic Analysis of the Interaction of Components in the Si–C–O System in the Carbothermic Synthesis of Silicon Carbide / Lebedev, A.S //Doklady Chemistry.–2019.–Vol. 484 No. 2.– P.41-43
Zaitseva, О.V The Poly-Substituted M-Type Hexaferrite Crystals Growth / О.V. Zaitseva, D.A. Vinnik, E.A. Trofimov //Materials Science Forum.–2019.–Vol. 946.– P.186-191
Образование высокоэнтропийных октаэдрических кристаллов в многокомпонентных оксидных системах / Д.А. Винник //Вестник Южно-Уральского государственного университета. Серия: Химия.–2019.–Том 11 № 3.– C.24-31
Самойлова, О.В. Исследование влияния фазового состава и структуры на микротвердость литых сплавов системы Cu–Ce–La / О.В. Самойлова, Е.А. Трофимов //Расплавы.–2019.–Том - № 2.– C.167-176
Твердофазный синтез высокоэнтропийных кристаллов со структурой магнетоплюмбита в системе BaO-Fe2O3-TiO2-Al2O3-In2O3-Ga2O3-Cr2O3 / Д.А. Винник //Вестник Южно-Уральского государственного университета. Серия: Химия.–2019.–Том 11 № 3.– C.32-39
Термодинамический анализ взаимодействия компонентов в системе Si–C–O в процессе карботермического синтеза карбида кремния / Лебедев, А.С. //Доклады Академии наук.–2019.–Том 484 № 5.– C.559-562
Термодинамическое моделирование количественных отношений фаз, сосуществующих в процессе карботермического синтеза β-SiC / А.С. Лебедев //Вестник Южно-Уральского государственного университета. Серия: Химия.–2019.–Том 11 № 4.– C.76-84
Anomalies in Ni-Fe nanogranular films growth / T.I. Zubar //Journal of Alloys and Compounds.–2018.–Vol. 748.– P.970-978
Dildin, A.N The Influence of Heat Treatment on the Size of the Carbide Inclusions and Hardness of Multilayer Composite Material ZD-0803 / A.N. Dildin, V.Y. Gerasimov, E.. Trofimov //Solid State Phenomena.–2018.–Vol. 284 SSP.– P.501-506
ELECTROMAGNETIC PROPERTIES OF BaFe12O19:Ti AT CENTIMETER WAVELENGTHS / Vinnik, D.A //Journal of Alloys and Compounds.–2018.–Vol. 755.– P.177-183
Magnetic and dipole moments in indium doped barium hexaferrites / S.V. Trukhanov //Journal of Magnetism and Magnetic Materials.–2018.–Vol. 457.– P.83-96
Morphology and magnetic properties of pressed barium hexaferrite BaFe12O19 materials / Vinnik, D.A //Journal of Magnetism and Magnetic Materials.–2018.–Vol. 459.– P.131-135
Samoilova, O.V Thermodynamic Simulation of the Phase Diagram of the Cu2O–Na2O–K2O System / O.V. Samoilova, L.A. Makrovetc, E.A. Trofimov //Moscow University Chemistry Bulletin.–2018.–Vol. 73 (3).– P.105-110
Thermodynamic reassessment of the Na-Cu and Na-K binary systems / Trofimov, E.A //Metals.–2018.–Vol. 8(8)
Trofimov, E.A Thermodynamic analysis of possibility of using calcium compounds for removal of heavy metal ions from aqueous solutions / E.A. Trofimov, O.A. Nevraeva, E.R. Vakhitova //IOP Conference Series: Materials Science and Engineering.–2018.–Vol. 451
Trofimov, E.A Thermodynamic assessment of the na–cu and na–k binary systems / E.A. Trofimov, O.V. Samoilova, E.R. Vakhitova //Solid State Phenomena.–2018.–Vol. 284 SSP.– P.575-580
Зайцева, О.В. Фазовая диаграмма системы Na–Na2O / О.В. Зайцева, Е.А. Трофимов, О.В. Самойлова //Вестник Южно-Уральского государственного университета. Серия «Металлургия».–2018.–Том 18 (2).– C.37-41
Изучение фазового состава и электропроводности сплавов системы Сu-Cr-Si-Ce-La / О.В. Самойлова //Вестник Южно-Уральского государственного университета. Серия «Металлургия».–2018.–Том 18(2).– C.54-63
Самойлова, О.В. Термодинамическое моделирование фазовой диаграммы системы Cu2O-Na2O-K2O / О.В. Самойлова, Л.А. Макровец, Е.А. Трофимов //Вестник Московского университета. Серия 2. Химия.–2018.–Том 59 (3).– C.196-204
Фазовые равновесия, реализующиеся в оксидных системах, включающих ферриты бария / Е.А. Трофимов //НОВБЫТХИМ.–2018.– C.118-118
Barkov, L.A Computer Simulation of Porous Material Plastic Deformation / L.A. Barkov, M.N. Samodurova, E.A. Trofimov //Procedia Engineering.–2017.–Vol. 206.– P.533-539
Dildin, A.N Improvement of deep processing techniques for waste of steel-melting production. Part 1. Thermodynamic analysis / A.N. Dildin, E.A. Trofimov, I.V. Chumanov //Izvestiya Ferrous Metallurgy.–2017.–Vol. 60(1).– P.5-12
EFFECT OF MOLYBDENUM AND TUNGSTEN ON THE STRUCTURE FEATURES OF BOROSILICATE GLASSES / М.П. Бражников //NEW MATERIALS: Materials for Innovative Energy: Development, Characterization and Application.–2017.– C.119-119
Improvement of deep processing techniques for waste in steel-melting production. Part 2. Development of process flow diagram / Dildin, A.N //Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya.–2017.–Vol. 60(3).– P.175-180
Improving the Processing of Steelmaking Waste. Part 2. Development of the Basic Processing System / Dildin, A.N //Steel in Translation.–2017.–Vol. 47 (№3).– P.149-152
Magnetic and structural properties of barium hexaferrite BaFe12O19 from various growth techniques / Vinnik, D.A //Materials.–2017.–Vol. 10(6)
Millimeter-wave characterization of aluminum substituted barium lead hexaferrite single crystals grown from PbO–B2O3 flux / Vinnik, D.A //Ceramics International.–2017.–Vol. 43.– P.15800-15804
Samoilova, O.V Phase equilibria in the copper-rich corner of the Cu-Ce-La-O system at the temperature range 1100-1300 °C / O.V. Samoilova, L.A. Makrovetc, E.A. Trofimov //International Review on Modelling and Simulations.–2017.–Vol. 10 (6).– P.432-436
Thermodynamic description of the interaction processes in the Cu–Ce–O system in the temperature range 1100–1300°C / Samoilova, O.V //Russian Metallurgy (Metally).–2017.–Vol. 3.– P.209-215
THERMODYNAMIC MODELLING OF PHASE EQUILIBRIA IN THE FERRITE CONTAINING OXIDE SYSTEMS / Е.А. Трофимов //XXI International Conference on Chemical Thermodynamics in Russia (RCCT-2017).–2017.– C.256-256
Trofimov, E.A Improving the Processing of Steelmaking Waste. Part 1. Thermodynamic Analysis / E.A. Trofimov, A.N. Dildin, I.V. Chumanov //Steel in Translation.–2017.–Vol. 47(№1).– P.1-6
Vinnik, D.A Investigation of Ba-Fe-O system near the Bafe12O19 / D.A. Vinnik, E.A. Trofimov, D.A. Zherebtcov //Solid State Phenomena.–2017.–Vol. 265.– P.475-480
Взаимодействие лития с кислородом в жидкой меди / О.В. Самойлова //Расплавы.–2017.–Том 1.– C.83-92
Дильдин, А.Н. Совершенствование методики глубокой переработки отходов сталеплавильного производства. Часть 1. термодинамический анализ. / А.Н. Дильдин, Е.А. Трофимов, И.В. Чуманов //Известия высших учебных заведений. Черная металлургия.–2017.–Том 60(1).– C.5-12
Самойлова, О.В. Изучение процесса образования карбидов хрома из компонентов расплава системы Cu–Cr–C / О.В. Самойлова, Е.А. Трофимов, В.И. Гераскин //Вестник Южно-Уральского государственного университета. Серия «Металлургия».–2017.–Том 17 (3).– C.13-20
Совершенствование методики глубокой переработки отходов сталеплавильного производства. Часть II. Разработка схемы прцесса. / А.Н. Дильдин //Известия высших учебных заведений. Черная металлургия.–2017.–Том 3(60).– C.175-180
Термодинамический анализ возможности использования расплавов системы BaO–Na2O–Fe2O3 для выращивания кристаллов гексаферрита бария / Д.А. Винник //Вестник Южно-Уральского государственного университета. Серия «Металлургия».–2017.–Том 17(3).– C.34-45
Термодинамическое описание процессов взаимодействия в системе Cu-Ce-O в интервале температур 1100-1300 °C / О.В. Самойлова //Металлы.–2017.–Том 2.– C.57-63
Трофимов, Е.А. THERMODYNAMIC ANALYSIS OF THE TERNARY Cu-Cr-C AND Cu-Mo-C SYSTEMS / Е.А. Трофимов, О.В. Самойлова, Д.П. Галкина //XXI International Conference on Chemical Thermodynamics in Russia (RCCT-2017).–2017.–Том 1.– C.257-257
Фазовая диаграмма системы BaO-PbO-Fe2O3 / Д.А. Винник //Вестник Южно-Уральского государственного университета. Серия: Химия.–2017.–Том 9 (№ 3).– C.48-58
Участие во всероссийских и региональных научных конференциях: 
Термодинамика и материаловедение: 10-й Всероссийский семинар с международным участием (2015)
67-й научая конференция профессорско-преподавательского состава, аспирантов и сотрудников (2015)
XIV Российская конференция «Строение и свойства металлических и шлаковых расплавов» (МиШР-XIV) (2015)
Участие в международных научных конференциях: 
JUBILEE INTERNATIONAL CONFERENCE „70 YEARS UCTM“ (2023)
Международная научно-практическая конференция «Материаловедение и металлургические технологии» RUSMETALCON-2018
XXI Международная конференция по химической термодинамике в России (RCCT-2017) (2017)
XX Международная конференция по химической термодинамике в России (RCCT–2015) (2015)
XVI Международная научная конференция «Современные проблемы электрометаллургии стали» (2015)
XX International Conference on Chemical Thermodynamics in Russia (RCCT-2015) (2015)
Международная конференция «Термодинамика и материаловедение» (2015)
международная научно-техническая конференция «Пром-Инжиниринг» (2015)
«Пром-Инжиниринг' 2015» (2015)
Современные металлические материалы и технологии (СММТ’2015) (2015)
III международная конференция «Инновационная деятельность предприятий по исследованию, обработке и получению современных материалов и сплавов» (2014)
Международная научно-техническая конференция «Нанотехнологии функциональных материалов» (2014)
Russian patents: 
Программа для расчета параметров процесса пирометаллургического восстановления шлаков сталеплавильного производства «Recovery»
Криогенный высокоэнтропийный сплав
Способ получения износостойкого покрытия
Устройство для определения деформации текстильных материалов при сжатии
International patents: 
Способ формования и формозакрепления деталей из меха (варианты)
Устройство для активации цемента
Повышение квалификации: 
Проектирование и технология производства авиационной и ракетно-космической техники (252 ч., 2022 г.)
Углублённая лингвистическая подготовка «Лингва». Уровень Upper-Intermediate (240 ч., 2021 г.)
Применение электронного обучения и дистанционных технологий для реализации образовательных программ (72 ч., 2020 г.)
Педагогические технологии в SMART-университете (256 ч., 2020 г.)
Управление деятельностью вуза: применение электронных образовательных ресурсов при реализации программ (72 ч., 2019 г.)
Основы электронного обучения (80 ч., 2019 г.)
Современные способы получения многофункциональных покрытий и материалов с высоким уровнем потребительских свойств (48 ч., 2015 г.)
Изучение передовых методов построения фазовых диаграмм систем с участием металлических расплавов (90 ч., 2014 г.)
Технология создания эффективной мультимедийной презентации (72 ч., 2013 г.)
MS Office: простые решения для работы преподавателя (72 ч., 2013 г.)
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