Ivannikov Aleksandr A.
Degree:
Candidate of Sciences (PhD) in Technology
Associate Professor
Department of Physical Issues in Materials Science (9, ИЯФиТ КАФ.9)
Works at MEPhI since 2014
Work Experience:
9 years
Education
2011 — National Research Nuclear University MEPhI
Courses
1.
Compatibility, Corrosion and Protection of Materials
2.
Practical Training (Research Work)
3.
Theoretical and Applied Materials Science
Publication activity
5
h-index
(Web of Science)
9
h-index
(Scopus)
8
h-index
(РИНЦ)
Showing publications for last 3 years
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Article
Web of Science & ScopusStructure and mechanical properties of three-layer composites obtained by magnetic pulse welding of titanium and Zr-based metallic glass // International Journal of Advanced Manufacturing Technology, 2024 doi
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Article
Web of Science & ScopusFormation of Composite Material by Magnetic Pulse Welding of Crystalline Titanium and Nickel-Based Amorphous Alloy // Metal Science and Heat Treatment, 2023 Q3 doi
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Article
Web of Science & ScopusMicrostructure Evolution of Vacuum-Brazed Ti/Mo Joints with Ti- and Zr-Based Filler Metals // Journal of Materials Engineering and Performance, 2023 Q2 doi
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Article
Web of Science & ScopusJoining Stainless-Steel AISI 304 and High-Strength Aluminum Alloy AA 6082 by Brazing Using Al-Ge-Si Foils // Metals, 2023 Vol. 13, No. 1, Q2 doi
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Article
Web of Science & ScopusActive Brazing of Silicon Carbide with Rapidly Quenched TiZrCuBe Filler Metal // Journal of Materials Engineering and Performance, 2023 Q2 doi
- RSCI EXPERIENCE IN THE DEVELOPMENT OF QUICK-HARDENED SOLDERS AT MEPHIEXPERIENCE IN THE DEVELOPMENT OF QUICK-HARDENED SOLDERS AT MEPHI // 2022 pp. 45-45
- RSCI STUDY OF THE SiC/SiC BRAZED JOINTS MICROSTRUCTURE EVOLUTION DURING HIGH-TEMPERATURE HEAT TREATMENTSTUDY OF THE SiC/SiC BRAZED JOINTS MICROSTRUCTURE EVOLUTION DURING HIGH-TEMPERATURE HEAT TREATMENT // 2022 pp. 211-212
- RSCI PREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDINGPREPARATION OF COMPOSITE MATERIALS BASED ON CRYSTALLINE TITANIUM AND AMORPHOUS ALLOY BY MAGNETIC PULSE WELDING // 2022 pp. 215-216
- RSCI REGULARITIES OF FORMATION OF COMPOUNDS OF CORROSION-RESISTANT STEEL AISI 304 AND HIGH-STRENGTH ALUMINUM ALLOY AA 6082 OBTAINED BY VACUUM SOLDERING USING QUICK-HARDENED SOLDERS OF THE Al-Ge-Si SYSTEMREGULARITIES OF FORMATION OF COMPOUNDS OF CORROSION-RESISTANT STEEL AISI 304 AND HIGH-STRENGTH ALUMINUM ALLOY AA 6082 OBTAINED BY VACUUM SOLDERING USING QUICK-HARDENED SOLDERS OF THE Al-Ge-Si SYSTEM // 2022 pp. 220-221
- RSCI INTERFACIAL MICROSTRUCTURE OF TITANIUM/AMORPHOUS ALLOY COMPOSITE FABRICATED BY MAGNETIC PULSE WELDINGINTERFACIAL MICROSTRUCTURE OF TITANIUM/AMORPHOUS ALLOY COMPOSITE FABRICATED BY MAGNETIC PULSE WELDING // 2022 pp. 61-63
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Article
Web of Science & ScopusEFFECT OF HEAT TREATMENT ON THE PROPERTIES OF RAPIDLY QUENCHED Al – Ge – Si ALLOYS // Tsvetnye Metally, 2022 Vol. 2022, No. 10, Q3 pp. 58-65 doi
- RSCI APPLICATION OF BRAZING TECHNOLOGY TO OBTAIN JOINTS FROM SILICON CARBIDEAPPLICATION OF BRAZING TECHNOLOGY TO OBTAIN JOINTS FROM SILICON CARBIDE // 2022 pp. 315-319
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Article
Web of Science & ScopusJoining Ti-based metallic glass and crystalline titanium by magnetic pulse welding // Journal of Non-Crystalline Solids, 2022 Vol. 597, Q1 doi
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Article
Web of Science & ScopusExperimental and numerical analysis of filler metal STEMET 1301A for connection of molybdenum with steel 12CR18NI10TI (Withdrawal of Vol 295, art no 116683, 2020) // JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2021 Vol. 295, TOP10 doi
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Article
Web of Science & ScopusDevelopment of rapidly-quenched al-ge-si filler alloys for the joining of stainless steel aisi 304 and aluminum alloy aa6082 // Metals, 2021 Vol. 11, No. 12, Q2 doi
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Article
Web of Science & ScopusOverview of nickel-based filler metals for brazing of austenitic stainless steels // Non-ferrous Metals, 2021 No. 1, Q3 pp. 41-56 doi
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Article
Web of Science & ScopusMicrostructure Influence on Corrosion Resistance of Brazed AISI 304L/NiCrSiB Joints // Metals and Materials International, 2021 Q1 doi
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Article
Web of Science & ScopusMicrostructure, residual stresses, and strain‐rate‐dependent deformation and fracture behavior of aisi 304l joints brazed with nicrsib filler metals // Metals, 2021 Vol. 11, No. 4, Q2 doi
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Article
Web of Science & ScopusOverview of the mechanical properties of tungsten/steel brazed joints for the demo fusion reactor // Metals, 2021 Vol. 11, No. 2, Q2 pp. 1-11 doi
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Article
Web of Science & ScopusDiffusion brazing of stainless steels influence of Ni-B filler alloy composition // Welding in the World, 2021 Q2 doi
Showing conferences for last 3 years
Conferences not found
Grants
Feb 2021 — Jan 2024
Alloying- and heating mode dependent microstructure of brazed AA6082/Al-Ge-Si/AISI 304 joints and its influence on the static and cyclic performance
Feb 2019 — Aug 2021
Alloying-dependent microstructure influence on corrosion fatigue mechanisms of brazed AISI 304/NiCrSiB joints
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