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Volodymyr Hutsaylyuk
Researcher at Military University of Technology in Warsaw
Publications - 47
Citations - 388
Volodymyr Hutsaylyuk is an academic researcher from Military University of Technology in Warsaw. The author has contributed to research in topics: Deformation (engineering) & Fatigue limit. The author has an hindex of 10, co-authored 43 publications receiving 280 citations.
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Low cycle fatigue properties of AA2519–Ti6Al4V laminate bonded by explosion welding
TL;DR: In this article, the effect of heat treatment on low cycle fatigue properties and the course of fatigue cracking in AA2519/Ti6Al4V sandwich laminates is presented.
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Strain field evolution on the surface of aluminum sheet alloys exposed to specific impact with oscillation loading
TL;DR: Strain field evolution on the surface of aluminum sheet D16 and 2024-T3 alloys has been analyzed during static deformation and during specific high-speed impact and oscillation loading as mentioned in this paper.
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Effect of complex combined loading mode on the fracture toughness of titanium alloys
TL;DR: In this paper, the effect of the complex combined loading mode on changes in the mechanical properties of titanium alloys of different classes subjected to static stretching was investigated, including the crack resistance.
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The properties of oxide-ceramic layers with Cu and Ni inclusions synthesizing by PEO method on top of the gas-spraying coatings on aluminium alloys
Volodymyr Hutsaylyuk,Mykhailo Student,Volodymyr Posuvailo,Oleksandra Student,Yaryna Sirak,Volodymyr Hvozdets'kyi,Pavlo Maruschak,H. H. Veselivs’ka +7 more
TL;DR: In this paper, the possible options for forming of oxide-ceramic layers (Al2O3) alloyed with copper and nickel inclusions have been considered based on thermodynamic calculations.
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Influence of Combined Loading on Microstructure and Properties of Aluminum Alloy 2024-T3
Elena Zasimchuk,L. Markashova,Olexandra Baskova,T.V. Turchak,N. Chausov,Volodymyr Hutsaylyuk,Valentyn Berezin +6 more
TL;DR: In this article, the experimental study of the fracture of a multiphase aluminum-base alloy 2024-T3, which was deformed under the dynamic tension conditions, showed that the impact in an elastic region leads to an insignificant non-stationary deformation and an insignificant weakening of the material.