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Igor S. Golovin
Researcher at National University of Science and Technology
Publications - 233
Citations - 3403
Igor S. Golovin is an academic researcher from National University of Science and Technology. The author has contributed to research in topics: Alloy & Phase transition. The author has an hindex of 27, co-authored 213 publications receiving 2588 citations. Previous affiliations of Igor S. Golovin include Moscow Institute of Steel and Alloys & MAMI Moscow State Technical University.
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Effect of microalloying with Ca on the microstructure and mechanical properties of Mg-6 mass%Zn alloys
TL;DR: In this paper, the Mg-6 mass%Zn alloys microalloyed with different amounts of Ca were cast and extruded, and a large amount of precipitates was observed in the Ca containing alloys after extrusion.
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Phase transitions as a tool for tailoring magnetostriction in intrinsic Fe-Ga composites
V.V. Palacheva,A. Emdadi,Friederike Emeis,Ivan A. Bobrikov,Anatoly M. Balagurov,Sergiy V. Divinski,Gerhard Wilde,Igor S. Golovin +7 more
TL;DR: In this article, the D03 and L12 phases that originate from the fcc and bcc phases in the Fe-27Ga type bulk alloy, respectively, were characterized using an isothermal annealing treatment.
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Anelasticity of Fe–Al alloys, revisited
TL;DR: In this article, the authors revisited and discussed internal friction in Fe-Al-based alloys and discussed the mechanisms of corresponding relaxation processes, including hysteretic damping and dislocation mobility.
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Fabrication, characterization, and mechanical properties of spark plasma sintered Al–BN nanoparticle composites
Konstantin L. Firestein,Alexander E. Steinman,Igor S. Golovin,J. Cifre,Ekaterina A. Obraztsova,Andrei T. Matveev,Andrey M. Kovalskii,Oleg I. Lebedev,Dmitry V. Shtansky,Dmitri Golberg +9 more
TL;DR: In this article, a tensile test on Al-based composite materials strengthened with commercially available BN nanoparticles (BNNPs) was carried out and the results showed that a 50% increase in tensile strength was achieved compared with pristine Al.
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Damping in some cellular metallic materials
Igor S. Golovin,H.-R. Sinning +1 more
TL;DR: In this article, the ability to absorb energy of mechanical vibrations by different cellular metallic materials with porosities from 14 to 96% (metallic foams, metallic sponges and sintered metals) is discussed.