Papers accepted for publication

3D view of the GS configuration of the surface magnetic layer.
We can observe a clear 3D skyrmion crystal structure in the whole magnetic layers, not only near the interface layer. Unlike the case where we do not take into account the interaction between NNN, in the present case where the frustration is very strong we see that a large number of skyrmions are distributed over the whole magnetic layers with a certain periodicity close to a perfect crystal.

Skyrmions in a Frustrated Model of Multiferroic Superlattices

I.F. Sharafullin, N.M. Nugaeva, M.K. Kharrasov

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

The proposed and studied method of continuous alternating deformation by bending of workpieces around a rotating roller, aimed at hardening long axisymmetric workpieces with a slight change in their cross-section.

Characteristics of the stress-strain state and structural changes in axisymmetric samples under sign-alternating deformation by free and constrained bending

G.I. Raab, D.A. Aksenov, R.N. Asfandiyarov, A.G. Raab, i.S. Kodirov, M. Janeček

Article

Journal section: Materials processing and applications

Зависимости истинного напряжения от истинной деформации никелевого сплава, полученные в результате испытаний на сжатие и микроструктура (BSE) выделений γ′ фазы с мелкими карбидами.

Microstructure and mechanical behavior at elevated temperatures of a novel nickel base superalloy heavily alloyed with γ' forming and substitution elements

R.I. Zainullin, A.A. Ganeev, R.V. Shakhov, A.V. Logunov, S.K. Mukhtarov, V.M. Imayev

Article

Journal section: Mechanical and physical properties of materials

A decrease in the cooling/heating rate increased the temperatures of the forward martensitic transformation. This is caused by the realisation of the forward transformation under isothermal conditions.

Influence of the cooling / heating rate on the martensitic transformation and functional properties of the quenched Ni51Ti49 shape memory alloy

A.M. Ivanov, S.P. Belyaev , N.N. Resnina, V.A. Andreev

Article

Journal section: Mechanical and physical properties of materials

Carbon nanotubes in the form of protruding clusters on the surface of Cu-4 wt.% CNT composite

Field electron emission from a copper-based composite reinforced with carbon nanotubes

R.K. Khisamov, K.S. Nazarov, P.V. Trinh, A.A. Nazarov, D.D. Phuong, R.R. Mulyukov

Article

Journal section: Mechanical and physical properties of materials

High-temperature annealing of the laser clad NiCrBSi coating forms framework structures of large chromium carbides borides with improved hardness and wear resistance in conditions of external and frictional heating up to 1000 °C.

Wear-resistant nickel-based laser clad coatings for high-temperature applications

A.V. Makarov, Y.S. Korobov, N.N. Soboleva, Y.V. Khudorozhkova, A.A. Vopneruk, P. Balu, M. Barbosa, I.Y. Malygina, S.V. Burov, A.K. Stepchenkov

Article

Journal section: Structure design and analysis

α-Li0.5Fe2.5O4 and β-Li0.5Fe2.5O4 were obtained under solution combustion conditions.

Effect of the Red / Ox ratio on the structure and magnetic behavior of Li0.5Fe2.5O4 nanocrystals synthesized by solution combustion approach

K.D. Martinson, I.B. Panteleev, A.P. Shevchik, V.I. Popkov

Article

Journal section: Structure design and analysis

HPT processed sample have heterogeneous, which is graded along radial direction. It allows measurement of mechanical properties, such as hardness, and physical properties, such as electrical resistivity, as function of strain imposed during processing and hence helps establish structure-property relationship using lesser number of samples.

Effect of HPT processing followed by long term natural ageing on mechanical and electrical properties of commercially pure Cu

A. Rijal, S.P. Shobhit, J. Han, M. Kawasaki, P. Kumar

Article

Journal section: Mechanical and physical properties of materials

Microstructure of Inconel 718 manufactured by SLM and subjected to heat treatment

Microstructure and mechanical properties of the Inconel 718 superalloy manufactured by selective laser melting

K.S. Mukhtarova, R.V. Shakhov, S.K. Mukhtarov, V.V. Smirnov, V.M. Imayev

Article

Journal section: Structure design and analysis

The first part of the picture illustrates three dimension types of the γ' phase after TMT and ageing. The second part is the EBSD orientation map showing recrystallized structure after TMT and ageing.

Effect of thermomechanical treatment on the microstructure and mechanical properties of a nickel base superalloy heavily alloyed with substitution elements

V.M. Imayev, S.K. Mukhtarov, A.V. Logunov, A.A. Ganeev, R.V. Shakhov, L.R. Shaikhutdinova, R.M. Imayev

Article

Journal section: Mechanical and physical properties of materials

The paper presents the results of structure and texture investigation of thin magnesium foils obtained by rolling at low temperatures.

Low-temperature severe plastic deformation of pure magnesium

D.A. Komkova, O.V. Antonova, V.N. Petrova, A.Y. Volkov

Article

Journal section: Structure design and analysis

The nature of the processes controlling the changes in the structure and hardness of nickel depending on the number of cycles of electric pulse treatment is discussed.

Structure and hardness of cold-rolled nickel after single and multiple electric pulse treatment

I.S. Valeev, A.K. Valeeva, R.R. Ilyasov, O.S. Sitdikov, M.V. Markushev

Article

Journal section: Structure design and analysis

Heterogeneous lamella structured Al-5083 with superior combinations of strength and ductility have been fabricated with different annealing conditions. Hetero-deformation induced (HDI) hardening is an important reason for the excellent combinations of strength and ductility and precipitation hardening is one important component of HDI hardening

Influence of annealing parameters on the mechanical properties of heterogeneous lamella structured 5083 aluminum alloy

X. Fang, G. He, M. Ruiz, C. Zheng, Y. Wang, Z. Li, Y. Zhu

Article

Journal section: Mechanical and physical properties of materials

The work represents the results of mechanical and structural properties of 316L stainless steel according to variable 3D printing parameters.

Structure control of 316L stainless steel through an additive manufacturing

Y.O. Kuzminova, D.G. Firsov, S.D. Konev, A.A. Dudin, S.A. Dagesyan, I.S. Akhatov, S.A. Evlashin

Article

Journal section: Materials processing and applications

An anisotropy of the tensile mechanical properties of a billet of austenitic Fe-18Cr-9Ni-0.08C steel produced by the method of wire-feed electron-beam printing was investigated. It was experimentally shown that after additive growth, samples of austenitic steel, which were cut from different parts of the steel billet and differently oriented with respect to the direction of growth, possess the significant anisotropy of mechanical properties under uniaxial tension.

Anisotropy of the tensile properties in austenitic stainless steel obtained by wire-feed electron beam additive growth

E.V. Melnikov, E.G. Astafurova, S.V. Astafurov, G.G. Maier, V.A. Moskvina, M.Y. Panchenko, S.V. Fortuna, V.E. Rubtsov, E.A. Kolubaev

Article

Journal section: Mechanical and physical properties of materials

$In the present paper, the microstructure and fracture resistance characteristics of 7-layered composites based on low carbon low alloyed steel 09G2S and maraging steel EP678, obtained by two different methods: explosion welding and hot pack rolling with subsequent heat treatment were investigated.$

Microstructure and brittle fracture resistance of layered steel composites produced by explosion welding and pack rolling followed by heat treatment

S.V. Kuteneva, S.V. Gladkovsky, D.A. Dvoynikov, S.N. Segreev

Article

Journal section: Structure design and analysis

The coarse-grained (CG) materials typically exhibit excellent ductility but poor strength. By contrast, the ultrafine-grained (UFG) or nanocrystalline (NC) materials typically exhibit high strength but poor ductility. However, in this work, the gradient-grained structure materials have superior combination of high strength and good ductility.

Effect of treatment time on mechanical properties of pure copper processed by surface mechanical attrition treatment at cryogenic temperature

J. Zhang, H. Pan, H. Gao, X. Yang, X. Li, X. Liu, B. Shu, C. Li, Y. Gong, X. Zhu

Article

Journal section: Mechanical and physical properties of materials

Magnesium matrix composites can be produced by room temperature consolidation through high-pressure torsion. Good dispersion of phases, ultrafine grained matrix and improved properties are obtained.

Developing magnesium-based composites through high-pressure torsion

M.M. Castro, P.R. Pereira, R.B. Figueiredo, T.G. Langdon

Article

Journal section: Materials processing and applications

Magnesium / quasicrystal composites are produced by high-pressure torsion and tested in tension. The ductility is limited due to areas with lack of bonding.

Consolidation of magnesium and magnesium-quasicrystal composites through high‑pressure torsion

M.M. Castro, W. Wolf, A. Isaac, M. Kawasaki, R.B. Figueiredo

Article

Journal section: Materials processing and applications

The picture illustrates a significant microstriucture change in the cast Ti-44Al-5Nb-0.2B alloy after upset forging with a low strain value followed by heat treatment.

Effect of hot forging in the ordered phase field on microstructure and mechanical properties of β-solidifying γ-TiAl alloys

V.M. Imayev, A.A. Ganeev, T.I. Nazarova, R.M. Imayev

Article

Journal section: Mechanical and physical properties of materials

Thin aluminum film on the iron substrate at temperatures of 300 K and 1173 K.

Molecular dynamics study of the stability of aluminium coatings on iron

A.Y. Galashev, O.R. Rakhmanova, V.A. Kovrov, Y.P. Zaikov

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

The diagram of the distribution of the first principal strain when φ = 60°, pmax = 4 MPa and holding time 3000 s.

Influence of the inclination angle of stiffeners on folding during superplastic forming of corrugated core panels

A.A. Kruglov Anatolievich, R.R. Mulyukov, O.A. Rudenko, A.F. Karimova, F.U. Enikeev

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Capabilities of Incremental Forming increased with the help of controlled heating.

Investigations on the influence of heat on AA1050 sheet during incremental forming

S.A. Singh, S. Priyadarshi, P. Tandon

Article

Journal section: Experimental methods in materials research

The fabrication scheme of Cu/Mg-composite rods and their cross-section view. In this study, structure, mechanical and electrical properties of the Cu/Mg composite rods and thin wires in the deformed and annealed states have been investigated.

Cu / Mg-composites: processing, structure and properties

A.Y. Volkov, D.A. Komkova, A.A. Kalonov

Article

Journal section: Mechanical and physical properties of materials

A quantitative model is presented to describe the kinetics of grain growth in complexly alloyed austenite. The average relative error in calculating grain size is about 11% that is comparable to the measurement error.

Modeling of grain growth kinetics in complexly alloyed austenite

A.A. Vasilyev, S.F. Sokolov, D.F. Sokolov, N.G. Kolbasnikov

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

The perspective electrolyte Gd0.05Bi0.15Mn0.05Ce0.75O2 has the conductivity of 8·10-3 S/cm.

Gd0.05Bi0.15M0.05Ce0.75O2 solid solutions for IT-SOFC electrolyte application

I.V. Zagaynov, S.V. Fedorov

Article

Journal section: Materials processing and applications

Dependence of the maximal misorientation of the broken dislocation boundary, forming due to the interaction of the slip band front with the elastic field of wedge disclination, on the distance between the disclination and the slip band.

Dislocation structures forming due to an interaction of slip band with an elastic field of wedge disclination

J.V. Svirina, V.N. Perevezentsev, V.V. Рыбин

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Presented in the figure are the stress distributions in the double-Gaussian waveguide and in a half-wave cylinder. It is shown that the double-Gaussian waveguide allows increasing the area of uniform distribution of the amplitude of normal stresses in a significant region.

A double-gaussian waveguide for ultrasonic treatment of metals

A.A. Mukhametgalina, A.A. Nazarov

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Сomputer simulation of the friction stir welding (FSW) of aluminum alloy sheet blanks

Influence of the pin shape of the tool during friction stir welding on the process output parameters

A.K. Akhunova, M.F. Imayev, A.K. Valeeva

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

The analysis of the NEXAFS Co2p-spectra of cobalt-containing solid solutions and cobalt oxides revealed that the studied Co atoms were mainly in the +2 and +3 oxidation state, which correlates well with the magnetochemical study data.

Magnetic properties and NEXAFS-spectroscopy of Co-doped ferroelectric ceramic Bi5Nb3O15

N.A. Zhuk, S.V. Nekipelov, D.S. Beznosikov, L.V. Rychkova, M.V. Yermolina, B.A. Makeev

Article

Journal section: Experimental methods in materials research

Heterogeneous structured compacts (Harmonic design) exhibited a good strength and optimum ductility as compared to the homogeneous structured compacts.

Microstructure and mechanical properties of hetero-designed Ti-25Nb-25Zr alloy fabricated by powder metallurgy route

B. Sharma, K. Nagano, M. Kawabata, K. Ameyama

Article

Journal section: Mechanical and physical properties of materials

Investigation of Cu5Zr particles precipitation in Cu-Zr and Cu-Cr-Zr alloys subjected to quenching and high strain rate deformation

I.V. Khomskaya, V.I. Zel'dovich, N.Y. Frolova, D.N. Abdullina, A.E. Kheifets

Article

Journal section: Structure design and analysis

The effect of carbon and oxygen impurity atoms on the migration rate of tilt boundaries with <100> and <111> misorientation axes in fcc metals is studied by the molecular dynamics method

Effect of carbon and oxygen impurity atoms on the migration rate of tilt boundaries in fcc metals: a molecular dynamics simulation

G.M. Poletaev, I.V. Zorya, R.Y. Rakitin, M.A. Iliina, M.D. Starostenkov

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

In the present work, two types of geometrical arrangement (C-1 and C-2) of Heusler-type Ni45Co5Mn37In13 microwires in a cooling cell are investigated theoretically.

Theoretical study of heat transfer processes in Heusler-type magnetic microwires

O.O. Pavlukhina, V.V. Sokolovskiy, V.D. Buchelnikov, M.A. Zagrebin

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Diamond-like polycyclobutane phases can be formed under uniaxial compression of graphite.

Modeling of synthesis pathways for diamond-like polycyclobutane phases

V.A. Greshnyakov, E.A. Belenkov

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Dynamics of N-crowdions is analysed by the molecular dynamics method in order to find the parameters of the interatomic potential that control the crowdion's path length.

Effect of interatomic potentials on mass transfer by supersonic 2‑crowdions

E.A. Korznikova, I.R. Sunagatova, A.M. Bayazitov, A.S. Semenov, S.V. Dmitirev

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Surface hardening of specimens of 316L-type austenitic stainless steel during ion-plasma treatment strongly depends on its initial microstructure.

The influence of prior deformation on phase composition and strength properties of austenitic stainless steel in ion-plasma treatment

V.A. Moskvina, E.G. Astafurova, K.N. Ramazanov, G.G. Maier, S.V. Astafurov, M.Y. Panchenko, E.V. Melnikov, Y.P. Mironov, E.A. Zagibalova

Article

Journal section: Mechanical and physical properties of materials

Today the global leaders of electronics production actively develop the technology of a non-volatile phase-change memory (PCM) based on a phase transition from a crystal to amorphous phase in nanoclusters. The main purpose of this work is a detailed study of possibility to use clusters of silver as a single bit of information in long-term memory devices, based on principle changing of phase memory of the carrier.

On the prospects of using a phase transition in Ag nanoclusters for information recording processes

D.A. Bashkova, Y.Y. Gafner, S.L. Gafner

Article

Journal section: Theory and computer simulations in materials science and condensed matter physics

Papers accepted for publication

Skyrmions in a Frustrated Model of Multiferroic Superlattices

Characteristics of the stress-strain state and structural changes in axisymmetric samples under sign-alternating deformation by free and constrained bending

Microstructure and mechanical behavior at elevated temperatures of a novel nickel base superalloy heavily alloyed with γ' forming and substitution elements

Influence of the cooling / heating rate on the martensitic transformation and functional properties of the quenched Ni51Ti49 shape memory alloy

Field electron emission from a copper-based composite reinforced with carbon nanotubes

Wear-resistant nickel-based laser clad coatings for high-temperature applications

Effect of the Red / Ox ratio on the structure and magnetic behavior of Li0.5Fe2.5O4 nanocrystals synthesized by solution combustion approach

Effect of HPT processing followed by long term natural ageing on mechanical and electrical properties of commercially pure Cu

Microstructure and mechanical properties of the Inconel 718 superalloy manufactured by selective laser melting

Effect of thermomechanical treatment on the microstructure and mechanical properties of a nickel base superalloy heavily alloyed with substitution elements

Low-temperature severe plastic deformation of pure magnesium

Structure and hardness of cold-rolled nickel after single and multiple electric pulse treatment

Influence of annealing parameters on the mechanical properties of heterogeneous lamella structured 5083 aluminum alloy

Structure control of 316L stainless steel through an additive manufacturing

Anisotropy of the tensile properties in austenitic stainless steel obtained by wire-feed electron beam additive growth

Microstructure and brittle fracture resistance of layered steel composites produced by explosion welding and pack rolling followed by heat treatment

Effect of treatment time on mechanical properties of pure copper processed by surface mechanical attrition treatment at cryogenic temperature

Developing magnesium-based composites through high-pressure torsion

Consolidation of magnesium and magnesium-quasicrystal composites through high‑pressure torsion

Effect of hot forging in the ordered phase field on microstructure and mechanical properties of β-solidifying γ-TiAl alloys

Molecular dynamics study of the stability of aluminium coatings on iron

Influence of the inclination angle of stiffeners on folding during superplastic forming of corrugated core panels

Investigations on the influence of heat on AA1050 sheet during incremental forming

Cu / Mg-composites: processing, structure and properties

Modeling of grain growth kinetics in complexly alloyed austenite

Gd0.05Bi0.15M0.05Ce0.75O2 solid solutions for IT-SOFC electrolyte application

Dislocation structures forming due to an interaction of slip band with an elastic field of wedge disclination

A double-gaussian waveguide for ultrasonic treatment of metals

Influence of the pin shape of the tool during friction stir welding on the process output parameters

Magnetic properties and NEXAFS-spectroscopy of Co-doped ferroelectric ceramic Bi5Nb3O15

Microstructure and mechanical properties of hetero-designed Ti-25Nb-25Zr alloy fabricated by powder metallurgy route

Investigation of Cu5Zr particles precipitation in Cu-Zr and Cu-Cr-Zr alloys subjected to quenching and high strain rate deformation

Effect of carbon and oxygen impurity atoms on the migration rate of tilt boundaries in fcc metals: a molecular dynamics simulation

Theoretical study of heat transfer processes in Heusler-type magnetic microwires

Modeling of synthesis pathways for diamond-like polycyclobutane phases

Effect of interatomic potentials on mass transfer by supersonic 2‑crowdions

The influence of prior deformation on phase composition and strength properties of austenitic stainless steel in ion-plasma treatment

On the prospects of using a phase transition in Ag nanoclusters for information recording processes

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