Name
Balayev Etibar Yusif
Scholastic degree
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Academic rank
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Honorary rank
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Organization, job position
Kuban State Technological University
Web site url
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Articles count: 3
The mechanical activation allows creating a active
state in a solid, opening the prospect for holding and
accelerating the chemical reactions between solids and
getting materials in a nonequilibrium state. As a result
of mechanical activation of the powder compositions
of the active phase transformations occur in them,
which lead to the formation of solid solutions and
various intermediate connections, providing dispersion
and dispersion hardening of materials included in the
composition. The results of the study of the
granulometric composition, the phase transformations
and structure evolution in multiphase materials with
SME Ni-30%at.Ti-20%at.Hf and Ni-33%at.Ti-
18%at.Zr at different stages of the process of
mechanical activation carried out in planetary ball mill
the centrifugal type is represented in the article.
During mechanical activation, a composite mix is
assimilated by the particles of processed material input
of mechanical energy in the form of new interfaces,
defects of the crystal lattice. At collision of particles
and grinding bodies in contact high local temperature
and pressure occur, which in some cases can lead to
melting of the most fusible components. When a local
increase in temperature between the particles of
titanium, hafnium, zirconium and carbon solid-phase
reactions become possible due to diffusion of atoms of
one component into the crystal lattice of the other.
Experimental studies have shown that the use of
mechanical activation allows creating an effective
technology of preparation of the starting material for
high-speed flame spraying
The article gives results of research of the process of
abrasive wear of samples made of Steel 45, U10 and
with applied composite surface layer "nickelmulticomponent
material with shape memory effect
(SME) based on TiNi". For the tests we have chosen
TiNiZr, which is in the martensite state and
TiNiHfCu, which is in the austenitic state at the test
temperature. The formation of the surface layer was
carried out by high-speed gas-flame deposition in a
protective atmosphere of argon. In the wear test,
Al2O3 corundum powder was used as an abrasive. It is
shown that the wear rate of samples with a composite
surface layer of multicomponent materials with an
SME is significantly reduced in comparison with the
base, which is explained by reversible phase
transformations of the surface layer with an SME.
After carrying out the additional surface plastic
deformation operation (SPD), the resistance of the
laminated composition to abrasion wear is greatly
enhanced, due to the reinforcing effect of the SPD. It
is recommended for products working in conditions of
abrasive wear and high temperatures to use the
complex technology of formation of the surface
composition "steel-nickel-material with high-temperature EPF", including preparation of the surface
of the substrate and the deposited material, VGN in
the protective atmosphere of argon, followed by SPD
The combined method of formation of the “Steel - superficial of materials with effect of memory of the form on the basis of TiNiCu” composition, which includes mechanical activation of powder, the high-speed gas-flame dusting, the subsequent thermo-mechanical processing is considered. The operating parameters are defined and the optimum modes of processing providing formation of the layers with nano-sized structure are recommended, chemical and phase composition of which corresponds to the shape memory effect