Shuvaeva Evgenia Alexandrovna

2004 — present: associate professor at the Department of Physical Materials Science.

2001-2004: Division of Intellectual Property Protection, MISIS.

2001″ PhD in Physics and Mathematics (solid state physics).

1998: graduation from MISIS as a physics engineer majoring in physics of metals.

Additional Education

2017: The use of electronic educational resources in the educational process of an educational institution, NUST MISIS, 72 hrs.

2018: Teaching managers of civil defense in organizations, 36 hrs.

Certificate of participant of the first international forum “Key trends in composites: science and technology”, December 2018.

2020: The use of information and communication technologies in the electronic educational environment, Federal State Autonomous Educational Institution for Higher Education NUST MISIS, 18 hrs.

2020: Principles of organization and provision of first aid by the teaching staff, 18 hrs, Federal State Autonomous Educational Institution for Higher Education NUST MISIS.

It was established that even in alloys with near-zero magnetostriction, deformation magnetization may be observed due to the high mobility of the 90-degree domain boundaries, that is on the condition that the initial magnetic permeability is sufficiently high.

It was established that in amorphous cobalt-based alloys with near-zero magnetostriction, an increase in strain magnetization may be observed as a result of heat treatment, including thermomagnetic treatment. It is assumed that such a change in the magnitude of the deformation magnetization is due to the fragmentation of the domain structure and an increase in the proportion of 90-degree domain boundaries, due to which the deformation magnetization is facilitated.

It was established that in amorphous iron-based alloys with high magnetostriction, the increase in the value of strain magnetization observed as a result of annealing may be caused not only by an increase in magnetostriction, but also by an increase in the mobility of domain boundaries, as evidenced by an increase in the value of the initial permeability.

Scopus Hirsch Index — 7.

Number of articles on Scopus — 20.

SPIN RSCI: 6242-4920.

ORCID: 0000-0003-1431-3975.

ResearcherID: G-9451-2015.

Scopus AuthorID: 7801406392.

Grant of the Federal Target Program “Scientific and scientific-pedagogical personnel of innovative Russia: for 2009-2013. Grant Agreement No. 14.A18.21.0783 dated August 27, 2012. Topic “Precision determination of magnetostriction in ferromagnetic micro-wires for ultra-sensitive sensors of the new generation”, 2012-2013. Supervisor — V.A. Zhukova. Type of participation — investigator.

Grant of the Federal Target Program “Scientific and scientific-pedagogical personnel of innovative Russia: for 2009-2013. Grant Agreement No. 14.A18.21.0762 dated August 27, 2012. Topic “Development of principles for the formation of defect-free soft magnetic wires by the Taylorulitovsky method”, 2012-2013. Supervisor — A.P. Zhukov. Type of participation — investigator.

RFBR Project 16-53- 48012 “Development of energy-efficient nanocomposite magnetic materials”, 2017-2020. Supervisor — S.D. Kaloshkin. Type of participation — investigator.

• Evolution of magnetic properties upon annealing and the ΔΙσ effect in metalloid-free amorphous alloy with a near-zero magnetostriction/Kekalo, I.B., Nemova, O.Yu., Taranichev, V.E., Shuvaeva, E.A.//Physics of Metals and Metallography, 1998, 86(6), стр. 541–549.
• I.B. Kekalo, E.A. Shuvaeva “Amorphous, nano- and microcrystalline magnetic materials” / laboratory course / Moscow, MISIS Publishing House, classification — Academic Methodological Association, 2008, p. 248.
• E.A. Shuvaeva, V.Yu. Vvedensky, A.S. Perminov “Physical properties of nanomaterials”, teaching guide, Moscow, MISIS Publishing House, classification — Academic Methodological Association, 2011, p. 224.
• V.Yu. Vvedensky, R.I. Malinina, O.A. Ushakov, E.A. Shuvaeva “Structure formation and analysis of phased transformations in iron-carbon alloys” / teaching guide / Moscow, MISIS Publishing House, classification — Academic Methodological Association, 2010, p. 56.
• E.A. Shuvaeva, V.Yu. Vvedensky, A.S. Perminov “Physical properties of solids”, laboratory course, Moscow, MISIS Publishing House, 2019, p. 132.
• The Impact of Bending Stress on Magnetic Properties of Finemet Type Microwires and Ribbons / E. Shuvaeva, M.Churyukanova, S.Kaloshkin, I.Hriplivets e.a// Journal of Alloys and Compounds. — 2018. — V. 743. — P. 388-393 · Non-contact method for stress monitoring based on stress dependence of magnetic properties of Fe-based microwires / M.Churyukanova, S.Kaloshkin, E. Shuvaeva e.a. // Journal of Alloys and Compounds. — 2018. — V. 748. — P. 199-205.
• The effect of heat treatment on magnetic and thermal properties of Finemettype ribbons and microwires / M.Churyukanova, S.Kaloshkin, E. Shuvaeva e.a.// Journal of Magnetism and Magnetic Materials. −2019. — V. 492 .-165598.
• Role of P on amorphization, microstructure, thermo-physical and soft magnetic properties of Fe-rich FeB(P)SiNbCu melt-spun alloys/ Premkumar Murugaiyan, Amitava Mitra, E. Shuvaeva e.a.// Journal of Magnetism and Magnetic Materials. −2019. — V. 492 .-165723.
• Impact of uniaxial stress on soft-magnetic and magneto-impedance properties of vitrified magnetostrictive microwires / Dhanranjan kumar, Munchun kumara, E. Shuvaeva e.a. // Journal of Alloys and Compounds. −2020. — V. 831 — 154861.
• E.A. Shuvaeva, V.Yu. Vvedensky, A.S. Perminov “Physical properties of solids”, exercise book, Moscow, MISIS Publishing House, 2021, p. 56.

• Certificate of state registration of PC program No. 2009612954, April 29, 2009. Program of phenomenological simulation of the processes of re-magnetization of highly anisotropic single-axis magnetic materials. A.S. Lileev, B.G. Razumeyko, V.N. Viktorov, A.S. Perminov, A.S. Starikova, E.A. Shuvaeva.
• A.S. Lileev, V.N. Viktorov, A.S. Perminov, B.G. Razumeyko, A.S. Starikova. Program of visualization of the results of phenomenological simulation of the processes of magnetization of highly anizotropic single-axis magnetic materials. Certificate of state registration of PC program No. 2013610413 dated January 09, 2013.

• NUST MISIS, Physical Properties of solids, 4 credits, 2014-2021.
• NUST MISIS, Phase equilibria and structure formation, 6 credits, 2017-2021.
• NUST MISIS, Physical properties of nanomaterials, 3 credits, 2007-2021.
• NUST MISIS, Physical phenomena in functional materials and nanosystems, 3 credits, 2021.
• NUST MISIS, Amorphous, microcrystalline and nanocrystalline magnetic materials, 3 credits, 2014-2021.
• NUST MISIS, Amorphous, micro-and nanocrystalline materials, 3 credits, 2018-2021.