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 Personnel
Publications
2020
- Kiryukhantsev-Korneev, P.V., Sheveyko, A.N., Vorotilo, S.A., Levashov, E.A
Wear-resistant Ti–Al–Ni–C–N coatings produced by magnetron sputtering of SHS-targets in the DC and HIPIMS modes
Ceramics International 46(2), ñ. 1775-1783, DOI: 10.1016/j.ceramint.2019.09.152, 2020,IF=3.45, Q1
- Karen S. Torosyan, Alexey S. Sedegov, Kirill V. Kuskov, Mohammad Abedi, Dmitry I. Arkhipov, Philipp V. Kiryukhantsev?Korneev, Stepan Vorotilo, Dmitry O. Moskovskikh Alexander S. Mukasyan
Reactive, nonreactive, and flash spark plasma sintering of Al2O3/SiC composites—A comparative study
Journal of the American Ceramic Society103(1), ñ. 520-530, DOI: 10.1111/jace.16734, 2020, IF=3.09, Q1
2019
- Ñàâîñòüÿíîâ À.Â., Ìîñêîâñêèõ Ä.Î., Ëîãèíîâ Ï.À., Âîðîòûëî Ñ., Áàðäàñîâà Ê.Â.
ÈÑÊÐÎÂÎÅ ÏËÀÇÌÅÍÍÎÅ ÑÏÅÊÀÍÈÅ ÌÅÄÍÎ-ÀËÌÀÇÍÛÕ ÊÎÌÏÎÇÈÒÎÂ: ÂËÈßÍÈÅ ÌÎÐÔÎËÎÃÈÈ ÏÎÊÐÛÒÈß B4C ÍÀ ÏÎÂÅÐÕÍÎÑÒÈ ÀËÌÀÇÎÂ
Ìåæäóíàðîäíûé íàó÷íî-èññëåäîâàòåëüñêèé æóðíàë, ¹ 12-1 (90). Ñ. 30-34., 2019, DOI: 10.23670/IRJ.2019.90.12.007IF=0.141 (ÐÈÍÖ)
- A.Yu. Potanin, S. Vorotilo, Yu.S. Pogozhev, S.I. Rupasov, T.A. Lobova, E.A. Levashov
Influence of mechanical activation of reactive mixtures on the microstructure and properties of SHS-ceramics MoSi2–HfB2–MoB
Ceramics International45(16), ñ. 20354-20361, DOI: 10.1016/j.ceramint.2019.07.009, 2019, IF=3.45, Q1
- A.Yu. Potanin, S. Vorotilo,Yu.S. Pogozhev, S.I. Rupasov, P.A. Loginov, N.V. Shvyndina, T.A. Sviridova, E.A. Levashov
High-temperature oxidation and plasma torch testing of MoSi2–HfB2–MoB ceramics with single-level and two-level structure
Corrosion Science 158,108074, DOI: 10.1016/j.corsci.2019.07.001, 2019, IF=6.35, Q1
- Kiryukhantsev-Korneev, P., Sytchenko, A., Sheveyko, A., Vorotilo S.
Structure and properties of protective coatings deposited by pulsed cathodic arc evaporation in Ar, N2, and C2H4 environments using the TiC-NiCr-Eu2O3 cathode
Coatings 9(4),230, DOI: 10.3390/coatings9040230, 2019,IF=2.33, Q2
- Vorotilo, S., Sidnov, K., Mosyagin, I.Y., Patsera, E.I., Abrikosov, I.A
Ab-initio modeling and experimental investigation of properties of ultra-high temperature solid solutions TaxZr1-xC
Journal of Alloys and Compounds 778, ñ. 480-486,DOI: 10.1016/j.jallcom.2018.11.219,2019, IF=4.18, Q1
- Vorotilo, S., Polosova, E.D., Levashov, E.A.
Peculiarities of the Synthesis of High-Temperature TaSi2–SiC Ceramics Reinforced in situ by Discrete Silicon Carbide Nanofibers
Russian Journal of Non-Ferrous Metals 60(2), ñ. 169-172, DOI: 10.17073/0021-3438-2018-6-72-76, 2019, IF=0.497, Q2
- Bondarev, A.V., Vorotilo, S., Shchetinin, I.V., Levashov, E.A., Shtansky, D.V.
Fabrication of Ta-Si-C targets and their utilization for deposition of low friction wear resistant nanocomposite Si-Ta-C-(N) coatings intended for wide temperature range tribological applications
Surface and Coatings Technology 359, ñ. 342-353, DOI: 10.1016/j.surfcoat.2018.12.030, 2019 IF=3.19, Q1
- V.V. Kurbatkina, E.I. Patsera, D.V. Smirnov, E.A. Levashov, S. Vorotilo, A.N. Timofeev.
Part 2. Structure, mechanical and thermophysical properties of consolidated ceramics based on (Hf,Ta)B2
Ceramics International 45(3), ñ. 4076-4083, DOI: 10.1016/j.ceramint.2018.10.165, 2019, IF=3.45, Q1
- Vorotilo, S., Levashov, E.A., Petrzhik, M.I., Kovalev, D.Y.
Combustion synthesis of ZrB2-TaB2-TaSi2 ceramics with microgradient grain structure and improved mechanical properties
Ceramics International 45(2), ñ. 1503-1512,DOI: 10.1016/j.ceramint.2018.10.020,2019, IF=3.45, Q1
- Vorotilo, S., Loginov, P., Mishnaevsky, L., Sidorenko, D., Levashov, E.
Nanoengineering of metallic alloys for machining tools: Multiscale computational and in situ TEM investigation of mechanisms
Materials Science and Engineering A 739, ñ. 480-490,DOI: 10.1016/j.msea.2018.10.070, 2019, IF=4.08, Q1
- Vorotilo, S., Levashov, E.A.
SHS in the Ta-Zr-Si-B system and properties of the produced ceramics
IOP Conference Series: Materials Science and Engineering 558(1),012054, DOI: 10.1088/1757-899X/558/1/012054, 2019, IF= N/A, Q=N/A
- Vorotilo, S., Potanin, A.Y., Loginov, P.A., Shvindina, N.V., Levashov, E.A.
Combustion synthesis of SiC-based ceramics reinforced by discrete carbon fibers with in situ grown SiC nanowires
Ceramics International, DOI: 10.1016/j.ceramint.2019.12.005,2019, IF=3.45, Q1
- Levashov, E.A., Kurbatkina, V.V., Vorotilo, S., Pogozhev, Yu.S., Patsera, E.I.
Prospective SHS composites for high-temperature applications
IOP Conference Series: Materials Science and Engineering 558(1),012025, DOI: 10.1088/1757-899X/558/1/012025, 2019, IF= N/A, Q=N/A
- Sedegov, A., Vorotilo, S., Tsybulin, V., Kuskov, K., Moscovskikh, D.
Synthesis and study of high-entropy ceramics based on the carbides of refractory metals
IOP Conference Series: Materials Science and Engineering 558(1),012043, DOI: 10.1088/1757-899X/558/1/012043,2019, IF= N/A, Q=N/A
- Vorotilo, S., Potanin, A.Y., Pogozhev, Y.S., Kochetov, N.A., Kovalev, D.Y.
Self-propagating high-temperature synthesis of advanced ceramics MoSi2–HfB2–MoB
Ceramics International 45(1), P. 96-107, DOI: 10.1016/j.ceramint.2018.09.138, 2019, IF=3.45, Q1
2018
- Vorotilo, S., Potanin, A.Y., Iatsyuk, I.V., Levashov, E.A.
SHS of Silicon-Based Ceramics for the High-Temperature Applications
Advanced Engineering Materials 20(8),1800200, DOI: 10.1002/adem.201800200,2018, IF=2.9, Q1
- Kurbatkina, V.V., Patsera, E.I., Levashov, E.A., Vorotilo, S.
SHS Processing and Consolidation of Ta–Ti–C, Ta–Zr–C, and Ta–Hf–C Carbides for Ultra-High-Temperatures Application
Advanced Engineering Materials 20(8),1701075,DOI: 10.1002/adem.201701075, 2018, IF=2.9, Q1
- Vorotilo, S., Levashov, E.A., Kurbatkina, V.V., Kovalev, D.Y., Kochetov, N.A.
Self-propagating high-temperature synthesis of nanocomposite ceramics TaSi2-SiC with hierarchical structure and superior properties
Journal of the European Ceramic Society 38(2), P. 433-443,DOI: 10.1016/j.jeurceramsoc.2017.08.015, 2018, IF=4.03, Q1
- Eremeeva, J.V., Vorotilo, S., Kovalev, D.Y., Gofman, A.A., Lopatin, V.Y.
Mechanochemical synthesis of Dy 2 TiO 5 single-phase crystalline nanopowders and investigation of their properties
2018, Inorganic Materials: Applied Research 9(2), P. 291-296, DOI: 10.1134/S2075113318020090,IF=0.66, Q2
- Âîðîòûëî Ñ., Ïîëîçîâà Å.Ä., Ëåâàøîâ Å.À.
ÎÑÎÁÅÍÍÎÑÒÈ ÑÈÍÒÅÇÀ ÂÛÑÎÊÎÒÅÌÏÅÐÀÒÓÐÍÎÉ ÊÅÐÀÌÈÊÈ TASI2-SIC,IN SITU ÀÐÌÈÐÎÂÀÍÍÎÉ ÄÈÑÊÐÅÒÍÛÌÈ ÍÀÍÎÂÎËÎÊÍÀÌÈÊÀÐÁÈÄÀ ÊÐÅÌÍÈß
Èçâåñòèÿ âûñøèõ ó÷åáíûõ çàâåäåíèé. Öâåòíàÿ ìåòàëëóðãèÿ. ¹ 6. Ñ. 72-76., DOI: 10.17073/0021-3438-2018-6-72-76, 2018,IF=0.67 (ÐÈÍÖ)
- Åðåìååâà Æ.Â., Âîðîòûëî Ñ., Êîâàëåâ Ä.Þ., Ãîôìàí À.À., Ëîïàòèí Â.Þ., Ãóíÿ À.À., Ìîðîçîâà Å.Â.
ÔÀÇÎÂÛÅ ÏÐÅÂÐÀÙÅÍÈß ÌÅÕÀÍÎÑÈÍÒÅÇÈÐÎÂÀÍÍÛÕ ÍÀÍÎÏÎÐÎØÊÎÂ DY ÏÐÈ ÍÀÃÐÅÂÅ2TIO5
Ïåðñïåêòèâíûå ìàòåðèàëû. ¹ 3. Ñ. 28-35.2018, IF=0.417 (ÐÈÍÖ)
- Âîðîòûëî Ñ., Ïîãîæåâ Þ.Ñ., Ïîòàíèí À.Þ.
ÏÎËÓ×ÅÍÈÅ ÂÛÑÎÊÎÒÅÌÏÅÐÀÒÓÐÍÎÉ ÊÅÐÀÌÈÊÈ MOSI2 - MOB - HFB2 ÑÎ×ÅÒÀÍÈÅÌ ÌÅÒÎÄΠÑÀÌÎÐÀÑÏÐÎÑÒÐÀÍßÞÙÅÃÎÑß ÂÛÑÎÊÎÒÅÌÏÅÐÀÒÓÐÍÎÃÎ ÑÈÍÒÅÇÀ È ÃÎÐß×ÅÃÎ ÏÐÅÑÑÎÂÀÍÈß Öâåòíûå ìåòàëëû
¹ 9. Ñ. 58-65, 2018, DOI: 10.17580/tsm.2018.09.09IF=0.527 (ÐÈÍÖ)
2017
- Zh.V. Eremeeva, V.S. Panov, L.V. Myakisheva, A.V. Lizunov, A.A. Nepapushev, D.A. Sidorenko, S. Vorotilo
Structure and properties of mechanochemically synthesized dysprosium titanate Dy2TiO5
Journal of Nuclear Materials, V. 495, P. 38-48,DOI: 10.1016/j.jnucmat.2017.07.058, 2017,
- Åðåìååâà Æ.Â., Ëîïàòèí Â.Þ., Âîðîòûëî Ñ., Êîâàëåâ À.Þ., Ìîðîçîâà Å.Â., Ãîôìàí À.À., Àãååâà Å.Â
ÑÒÐÓÊÒÓÐÀ È ÑÂÎÉÑÒÂÀ ÌÅÕÀÍÎÑÈÍÒÅÇÈÐÎÂÀÍÍÎÃÎ ÍÀÍÎÏÎÐÎØÊÀ ÎÄÍÎÔÀÇÍÎÃÎ ÊÐÈÑÒÀËËÈ×ÅÑÊÎÃÎ ÒÈÒÀÍÀÒÀ ÄÈÑÏÐÎÇÈß
Èçâåñòèÿ Þãî-Çàïàäíîãî ãîñóäàðñòâåííîãî óíèâåðñèòåòà. Ñåðèÿ: Òåõíèêà è òåõíîëîãèè. ¹ 3 (24). Ñ. 6-18.2017, IF=0.346 (ÐÈÍÖ)
- Åðåìååâà Æ.Â., Âîðîòûëî Ñ., Êîâàëåâ Ä.Þ., Ãîôìàí À.À., Ëîïàòèí Â.Þ.
ÌÅÕÀÍÎÕÈÌÈ×ÅÑÊÈÉ ÑÈÍÒÅÇ È ÈÑÑËÅÄÎÂÀÍÈÅ ÑÂÎÉÑÒ ÍÀÍÎÏÎÐÎØÊΠÎÄÍÎÔÀÇÍÎÃÎ ÊÐÈÑÒÀËËÈ×ÅÑÊÎÃÎ DY2TIO5
Ïåðñïåêòèâíûå ìàòåðèàëû. ¹ 11. Ñ. 64-71.2017, IF=0.417 (ÐÈÍÖ)
2016
- V.V. Kurbatkina, E.I. Patsera, S.A. Vorotilo, E.A. Levashov, A.N. Timofeev
Conditions for fabricating single-phase (Ta, Zr)C carbide by SHS from mechanically activated reaction mixtures
Ceramics International, Volume 42, Issue 15, 2016, Pages 16491-16498
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