Трофимов Евгений Алексеевич

Профессор кафедры «Материаловедение и физико-химия материалов»

Ведущий научный сотрудник — Управление научной и инновационной деятельности

Старший научный сотрудник — НИЛ проблем физико-химии и газодинамики двигательных установок многоразовых ракет-носителей

Доктор химических наук, доцент

E-mail:

trofimovea[at]susu[dot]ru

Индекс Хирша:

РИНЦ 27

Scopus 27

Web of Science 23

Научные профили:

РИНЦ: SPIN-код 4425-3683, Author ID 137506

ORCID: 0000-0001-8073-3244

Scopus ID: 57188954124

Web of Science ResearcherID: L-4201-2017

Статьи и монографии за последние три года:

Achieving exceptional wear resistance in severely deformed cost-effective AlCrFeNi high-entropy alloys through cyclic closed-die forging technique / Naseri, M. //Colloids and Surfaces A: Physicochemical and Engineering Aspects.–2025 No. 711

Cold gas dynamic additive spraying of functionally graded Cu matrix composites reinforced by high entropy oxides / Ostovari Moghaddam, A. //Journal of Alloys and Compounds.–2025.–Vol. 1010

Electrochemical detection of p-nitrophenol using glassy carbon electrode modified using high-entropy oxide nanoparticles / Mariappan, A. //Ceramics International.–2025.–Vol. 51 No. 3.– P.2770-2778

Elucidating the effect of cyclic closed-die forging technique on the electrochemical behavior of cost-effective Fe50−2xMn30Co10Cr10NixCux (x = 0, 5 at%) high-entropy alloys / Naseri, M. //Colloids and Surfaces A: Physicochemical and Engineering Aspects.–2025 No. 721

Exploring the corrosion behavior of cost-effective AlCrFeNi high-entropy alloys with various microstructure characteristics in sulfuric acid environment / Naseri, M. //Intermetallics.–2025

Investigation of the surface and photocatalytic behaviour of copper-iron-molybdate Cu7.26Fe7.26Mo12O48 nanocomposites prepared from discarded printed circuit boards / SHANMUGAVEL, S. //New Journal of Chemistry.–2025.–Vol. 49 No. 1.– P.2685-2693

Second nearest-neighbor modified embedded-atom method interatomic potentials for the Zr-X (X = Co, Fe, Ni) binary alloys / Ostovari Moghaddam, A. //Computational Materials Science.–2025.–Vol. 247

Synthesis and characterization of the RE2A2O7 oxides with an ultrahigh-entropy sublattice occupied by rare-earth elements / Trofimov, E. //Materials Letters.–2025 No. 379

(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

A critical review on solid-state welding of high entropy alloys– processing, microstructural characteristics and mechanical properties of joints / Sonar, T. //Defence Technology.–2024.–Vol. 34.– P.78-133

A critical review on the high entropy material coatings: criteria for materials selection and coating procedure / Polyakova, M. //Engineering Research Express.–2024.–Vol. 6 No. 4

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

EFFECT OF STRAIN PATH ON MICROSTRUCTURE AND MECHANICAL PROPERTIES IN COLD - ROLLED [FeNi]69Cr15Mn10Nb6 HIGH - ENTROPY ALLOY / Naseri, M. //Journal of Chemical Technology and Metallurgy.–2024.–Vol. 59 No. 5.– P.1231-1240

ELECTROCHEMICAL BEHAVIOR OF AL0.25COCRFENICU0.25AUX (X = 0

0.1

0.3) HIGH-ENTROPY ALLOYS IN AN AQUEOUS SOLUTION OF SODIUM CHLORIDE / Samoilova, O. //ChemChemTech.–2024.–Vol. 67 No. 9.– P.27-34

Elucidating the effect of cyclic closed-die forging processing on the microstructure and wear properties of novel low-cost [FeNi]75−xCr15Mn10Nbx (x = 0, 5, 10 at%) high-entropy alloys / Naseri, M. //Colloids and Surfaces A: Physicochemical and Engineering Aspects.–2024.–Vol. 702

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

Enhancing Welding Productivity and Mitigation of Distortion in Dissimilar Welding of Ferritic-Martensitic Steel and Austenitic Stainless Steel Using Robotic A-TIG Welding Process / Sonar, T. //Journal of Manufacturing and Materials Processing.–2024.–Vol. 8 No. 6

Exploring Strengthening Mechanisms of Ultrafine-Grained Fe35Mn27Ni28Co5Cr5 High-Entropy Alloy Processed by Severe Cold Rolling Process / Naseri, M. //Journal of Chemical Technology and Metallurgy.–2024.–Vol. 59 No. 3.– P.653-660

High-Entropy La(FeCuMnMgTi)O3 Nanoparticles as Heterogeneous Catalyst for CO2 Electroreduction Reaction / Ostovari Moghaddam, A. //Journal of Physical Chemistry Letters.–2024.–Vol. 15 No. 20.– P.5535-5542

High-entropy oxide (CeGdHfPrZr)O2 nanoparticles as reusable photocatalyst for wastewater remediation / Mariappan, A. //Surfaces and Interfaces.–2024.–Vol. 51

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.–2024.–Vol. 30 No. 2.– P.412-424

La(FeCuMnMgTi)O3 High-Entropy Oxide Nanoparticles as Highly Efficient Catalysts for Solvent-Free Aerobic Oxidation of Benzyl Alcohol / Ostovari Moghaddam, A. //Journal of Physical Chemistry Letters.–2024.–Vol. 15 No. 30.– P.7577-7583

Mechanical Properties of the Al3(TiTaZrNbHf) High Entropy Intermetallic Compound: A Molecular Dynamic Study / Ostovari Moghaddam, A. //Physical Mesomechanics.–2024.–Vol. 27 No. 4.– P.436-446

Microstructural Evolution of High-Entropy Intermetallic Compounds during Detonation Spraying / Ostovari Moghaddam, A. //Metals.–2024.–Vol. 14 No. 1

Microstructure refinement and wear resistance enhancement of cost-effective Fe50−2xMn30Co10Cr10NixCux (x = 0, 5 at%) high-entropy alloys through cyclic closed-die forging process / Naseri, M. //Colloids and Surfaces A: Physicochemical and Engineering Aspects.–2024.–Vol. 703

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

Modified embedded-atom method interatomic potentials for the V-X (X= Cr, Fe) binary and CoCrFeNiTiV multinary alloys / Ostovari Moghaddam, A. //Calphad: Computer Coupling of Phase Diagrams and Thermochemistry.–2024.–Vol. 87

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

Regulating of wear properties through microstructure engineering in novel cost-effective Fe30Ni25Cr25Mo10Al10 high-entropy alloy processed by cyclic closed-die forging / Naseri, M. //Journal of Alloys and Metallurgical Systems.–2024.–Vol. 7

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

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.–2024.–Vol. 131.– P.208-220

Synthesis and Characterization of Nanocrystalline High Entropy Heusler Intermetallics Powders / Ostovari Moghaddam, A. //Metals and Materials International.–2024.–Vol. 30 No. 5.– P.1424-1429

The behavior of Al0.5CoCrFeNiCuPt0.3 high-entropy alloy during high-temperature oxidation / Samoilova, O. //HIGH TEMPERATURE CORROSION OF MATERIALS.–2024

Ultrahigh hardness with exceptional wear resistance of novel cost-effective nanostructured Fe40Ni25Cr25Mo5Al5 high-entropy alloy through cyclic closed-die forging process / Naseri, M. //Colloids and Surfaces A: Physicochemical and Engineering Aspects.–2024 No. 703

Unveiling the effect of strain path-dependent microstructural evolution on the electrochemical behavior of cold-rolled [FeNi]69Cr15Mn10Nb6 high-entropy alloy / Naseri, M. //Colloids and Surfaces A: Physicochemical and Engineering Aspects.–2024.–Vol. 704

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

Краткий обзор исследований в области высокоэнтропийных сплавов и перспектива их использования в аэрокосмической технике / Т. Сонар //Черная металлургия. Бюллетень научно-технической и экономической информации.–2024.–Том 80 № 1.– C.5-28

НОВЫЕ ВЫСОКОЭНТРОПИЙНЫЕ ОКСИДЫ СО СТРУКТУРОЙ ПИРОХЛОРА / Е.А. Трофимов //НОВЫЕ ВЫСОКОЭНТРОПИЙНЫЕ ОКСИДЫ СО СТРУКТУРОЙ ПИРОХЛОРА.–2024.–Том 1.– C.565-565

СИНТЕЗ, ИССЛЕДОВАНИЕ СТРУКТУРЫ И СВОЙСТВ НОВЫХ ВЫСОКОЭНТРОПИЙНЫХ ОКСИДОВ A2B2O7 / Е.А. Трофимов //ХИМИЯ ТВЁРДОГО ТЕЛА И ФУНКЦИОНАЛЬНЫЕ МАТЕРИАЛЫ 2024.–2024.– C.110-110

Трофимов, Е.А. SYNTHESIS, EXPERIMENTAL STUDY AND THERMODYNAMIC ASSESSMENT OF THE PYROCHLORE STRUCTURE HIGH-ENTROPY OXIDES / Е.А. Трофимов, К.С. Литвинюк, М.Е. Ефимова //.–2024.–Том 1.– C.244-244

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

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

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

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 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:

Химия твердого тела и функциональные материалы – 2024

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)

Российские патенты (включая свидетельства о регистрации программ):

Программа для расчета параметров процесса пирометаллургического восстановления шлаков сталеплавильного производства «Recovery»

Криогенный высокоэнтропийный сплав

Способ получения износостойкого покрытия

Устройство для непрерывного прессования металлов

Устройство для определения деформации текстильных материалов при сжатии

Международные патенты (включая свидетельства о регистрации программ):

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.)