Papers accepted for publication

Schematic illustration of impact specimen cutting from multilayer laminate in the crack divider orientation

Impact fracture characteristics of multilayer laminate based on near-alpha titanium alloy

Schematic illustration of impact specimen cutting from multilayer laminate in the crack divider orientation
A.A. Sarkeeva
 Article

Diagrams "Torque - angle of twist" (a, b) and "Fatigue kinetic diagrams" (c, d) of materials for medical applications. 1- СG materials; 2, 3 - UFG materials (2- ECAP-C; 3- ECAP-C +D)

Strength and fracture mechanism of nanostructured metal materials for medical applications

Diagrams "Torque - angle of twist" (a, b) and "Fatigue kinetic diagrams" (c, d) of materials for medical applications. 1- СG materials; 2, 3 - UFG materials (2- ECAP-C; 3- ECAP-C +D)
G.V. Klevtsov, R.Z. Valiev, M.V. Fesenyuk, N.A. Klevtsova, M.N. Tyurkov, A.A. Matchin, E.V. Nosov
 Article

The study of the process of phase formation of multicomponent pyrochlore (Bi2-хCr1/6Mn1/6Fe1/6Co1/6Ni1/6Cu1/6Ta2O9+Δ) in the course of solid-phase synthesis showed that the precursor of the pyrochlore phase is bismuth orthotantalate. Of all the precursors, cobalt and nickel oxides are the last to enter the chemical reaction (at 850-900 С). Intermediate phases in the course of synthesis are complex oxides Bi16CrO27, Bi25FeO40, BiTaO4, Bi3TaO7, СoTa2O6.

Features of phase formation of pyrochlore-type Bi2Cr1/6Mn1/6Fe1/6Co1/6Ni1/6Cu1/6Ta2O9+Δ

The study of the process of phase formation of multicomponent pyrochlore (Bi2-хCr1/6Mn1/6Fe1/6Co1/6Ni1/6Cu1/6Ta2O9+Δ) in the course of solid-phase synthesis showed that the precursor of the pyrochlore phase is bismuth orthotantalate. Of all the precursors, cobalt and nickel oxides are the last to enter the chemical reaction (at 850-900 С). Intermediate phases in the course of synthesis are complex oxides Bi16CrO27, Bi25FeO40, BiTaO4, Bi3TaO7, СoTa2O6.
E.P. Rylchenko, B.A. Makeev, D.V. Sivkov, R.I. Korolev, N.A. Zhuk
 Article

Experimental refinement of monophase state regions on the phase diagrams parts of FePt and CoPt alloys

Study of the Pt-rich nanostructured FePt and CoPt alloys: oddities of phase composition

Experimental refinement of monophase state regions on the phase diagrams parts of FePt and CoPt alloys
N.S. Zakharov, I.N. Tikhonova, Y.A. Zakharov, A.N. Popova, V.M. Pugachev, D.M. Russakov
 Article
Journal section: Structure design and analysis

Al-Nb composites demonstrate a considerable dependence of tensile strength on HPT straining which almost doubled upon the increase of torsional straining from 30 to 100 rotations of HPT anvil and reached 530 MPa. Annealing resulted in an increase in ductility up to ~12% with a slight decrease in tensile strength.

Mechanical properties of Al-Nb in situ metal-matrix composites fabricated by constrained high pressure torsion at 10 GPa and subsequent annealing

Al-Nb composites demonstrate a considerable dependence of tensile strength on HPT straining which almost doubled upon the increase of torsional straining from 30 to 100 rotations of HPT anvil and reached 530 MPa. Annealing resulted in an increase in ductility up to ~12% with a slight decrease in tensile strength.
K.S. Nazarov, G.F. Korznikova, R.K. Khisamov, R.R. Timiryaev, E.A. Korznikova, G.R. Khalikova, R.U. Shayakhmetov, S.N. Sergeyev, R.R. Kabirov, R.R. Mulyukov
 Article

A new method for obtaining magnetic Fe-Mn-O nanoparticles by electric arc sputtering followed by calcination is proposed. It is shown that the obtained nanoparticles have high thermal stability.

ELECTRIC ARC SYNTHESIS OF MAGNETIC Mn-Fe-C NANOPARTICLES

A new method for obtaining magnetic Fe-Mn-O nanoparticles by electric arc sputtering followed by calcination is proposed. It is shown that the obtained nanoparticles have high thermal stability.
D.V. Smovzh, M.S. Skirda, S.Z. Sakhapov
 Article

Microstructure of HIP superalloy and after subsequent hot deformation.

Effect of hot working on the microstructure and tensile properties of a novel PM Re-bearing nickel base superalloy

Microstructure of HIP superalloy and after subsequent hot deformation.
S.K. Mukhtarov, D.A. Karyagin, A.V. Logunov, A.A. Ganeev, R.I. Zainullin, R.V. Shakhov, V.M. Imayev
 Article
Journal section: Structure design and analysis

HPT at 6 GPa pressure in the range of 0-10 rotations of pre-quenched ingot of the commercial aluminum alloy 1965 resulted in consequential transformation of well-defined dense dislocation wall/cell structure to non-equilibrium nanofragmented one and near two-fold hardenning. The alloy strengthening and/or softening during further natural aging up to 500 hrs were within 10-15% and controlled by simultaneous decomposition of the aluminum solid solution and recovery of its deformation structure.

Effect of HPT straining and further natural aging on the structure and hardness of aluminum alloy 1965 with nanosized TM aluminides

HPT at 6 GPa pressure in the range of 0-10 rotations of pre-quenched ingot of the commercial aluminum alloy 1965 resulted in consequential transformation of well-defined dense dislocation wall/cell structure to non-equilibrium nanofragmented one and near two-fold hardenning. The alloy strengthening and/or softening during further natural aging up to 500 hrs were within 10-15% and controlled by simultaneous decomposition of the aluminum solid solution and recovery of its deformation structure.
M.V. Markushev, E.V. Avtokratova, S.V. Krymskiy, V.V. Tereshkin, O.S. Sitdikov
 Article
Journal section: Structure design and analysis

At room temperature the permittivity and dielectric loss tangent of Bi2-1/3Cr1/6Mn1/6Fe1/6Co1/6Ni1/6Cu1/6Ta2O9+Δ are ~46 and ~0.004 at 1 MHz, respectively.

Synthesis and dielectric properties, XPS spectroscopy study of high-entropy pyrochlore

At room temperature the permittivity and dielectric loss tangent of Bi2-1/3Cr1/6Mn1/6Fe1/6Co1/6Ni1/6Cu1/6Ta2O9+Δ are ~46 and ~0.004 at 1 MHz, respectively.
K.N. Parshukova, N.A. Sekushin, B.A. Makeev, M.G. Krzhizhanovskaya, A.V. Koroleva, N.A. Zhuk
 Article

Gravimetric density as the function of exposure time at two temperatures and pressure. The inset shows the initial structure of a crumpled graphene flake (gray atoms) in a hydrogen atmosphere (blue atoms).

Effect of external pressure on the hydrogen storage capacity of a graphene flake: molecular dynamics

Gravimetric density as the function of exposure time at two temperatures and pressure. The inset shows the initial structure of a crumpled graphene flake (gray atoms) in a hydrogen atmosphere (blue atoms).
N.G. Apkadirova, K.A. Krylova, J.A. Baimova
 Article

The process of superplastic forming into a cylindrical matrix of workpieces from the EK61 superalloy with an ultrafine-grained structure has been studied.

Superplastic forming of EK61 nickel-based superalloy with ultrafine-grained structure

The process of superplastic forming into a cylindrical matrix of workpieces from the EK61 superalloy with an ultrafine-grained structure has been studied.
R.V. Safiullin, V.A. Valitov, R.Y. Lutfullin, E.V. Galieva, E.Y. Klassman
 Article
Journal section: Structure design and analysis

Structures of a thin-film high-entropy alloy deposited on steel AISI 321.

Electron-ion-plasma boriding of a multilayer nanostructural high-entropy alloy

Structures of a thin-film high-entropy alloy deposited on steel AISI 321.
Y.F. Ivanov, V.V. Shugurov, E.A. Petrikova, N.A. Prokopenko, A.D. Teresov, O.S. Tolkachev
 Article
Journal section: Structure design and analysis

Low-heat input friction stir welding/processing of Cu-Cr-Zr alloy produces an ultrafine-grained structure reinforced with Cr and Cu5Zr nanoparticles, resulting in a hardness level of 150-190 HV1.

Realizing ultrafine grain structure of Cu-Cr-Zr alloy via friction stir welding / processing

Low-heat input friction stir welding/processing of Cu-Cr-Zr alloy produces an ultrafine-grained structure reinforced with Cr and Cu5Zr nanoparticles, resulting in a hardness level of 150-190 HV1.
N.V. Lezhnin, A.V. Makarov, E.G. Volkova, A.I. Valiullin, A.B. Kotelnikov, A.A. Vopneruk
 Article
Journal section: Structure design and analysis

A ceramic material based on rare-earth zirconates with a pyrochloric structure, possessing phase and structural stability at 1300 °C was obtained. The use of REE oxide concentrate is promising for TBCs with thermal stability above 1200°C.

Effect of rare-earths (La, Nd, Pr) on zirconate ceramics for thermal barrier coatings

A ceramic material based on rare-earth zirconates with a pyrochloric structure, possessing phase and structural stability at 1300 °C was obtained. The use of REE oxide concentrate is promising for TBCs with thermal stability above 1200°C.
S.A. Oglezneva, S.E. Porozova, M.N. Kachenyuk, A.A. Smetkin, V.B. Kul’met’eva
 Article
Journal section: Structure design and analysis

Diagrams  true stress-strain   for: artificial aging (AA) and ultrafine-grained (UFG) state of 6101 alloy

True fracture stress of UFG samples of Al 6101 alloy

Diagrams true stress-strain for: artificial aging (AA) and ultrafine-grained (UFG) state of 6101 alloy
D.V. Gunderov, S.D. Gunderova, D.K. Magomedova
 Article

A cubic perovskite of complex composition Pb1/3Na1/3K1/3Ta2/3Fe1/3O3-δ (sp. gr. Pm-3m, a = 3.9767(3) Å) was synthesized for the first time by the solid-phase reaction method.

Optical and electrical properties of a new complex oxide Pb1 / 3Na1 / 3K1 / 3Ta2 / 3Fe1 / 3O3-δ with perovskite structure

A cubic perovskite of complex composition Pb1/3Na1/3K1/3Ta2/3Fe1/3O3-δ (sp. gr. Pm-3m, a = 3.9767(3) Å) was synthesized for the first time by the solid-phase reaction method.
N.A. Zhuk, A.М. Popov, R.I. Korolev, V.V. Moroz, A.А. Selyutin, A.V. Koroleva, N.А. Sekushin, B.А. Makeev
 Article
Journal section: Structure design and analysis

The figure shows the mass gain depending on oxidation time of the TNM (Ti-43.5Al-4Nb-1Mo-0.1B, at,%) and TNZ (Ti-44Al-6(Nb,Zr,Hf)-0.15B, at.%) samples, which were exposed to air at 800°C. The dotted lines show the approximation from 500 to 1000 h.

The effect of alloying and fluorination on the oxidation behavior of β-solidifying γ-TiAl based alloys

The figure shows the mass gain depending on oxidation time of the TNM (Ti-43.5Al-4Nb-1Mo-0.1B, at,%) and TNZ (Ti-44Al-6(Nb,Zr,Hf)-0.15B, at.%) samples, which were exposed to air at 800°C. The dotted lines show the approximation from 500 to 1000 h.
L.R. Shaikhutdinova, V.M. Imayev, D.M. Trofimov, R.M. Imayev
 Article

Schematic representation of distribution of microhardness over the sample cross section depending on the annealing temperature.

Microhardness of eutectic Al-Si alloy after friction stir processing and annealing

Schematic representation of distribution of microhardness over the sample cross section depending on the annealing temperature.
R.R. Latypova, D.B. Kabirova, N.F. Khayretdinov, R.F. Fazlyakhmetov, M.F. Imayev
 Article
Journal section: Structure design and analysis

The features and fracture mechanisms of reactor low-activation ferritic-martensitic steel EK-181 after high-temperature thermomechanical treatment and traditional heat treatment are revealed depending on the impact test temperature in the range from -186 to 100°C. The fracture appearance transition temperature is determined by a fractographic investigation.

Fracture features of impact samples of low-activation ferritic-martensitic steel EK-181 after high-temperature thermomechanical treatment

The features and fracture mechanisms of reactor low-activation ferritic-martensitic steel EK-181 after high-temperature thermomechanical treatment and traditional heat treatment are revealed depending on the impact test temperature in the range from -186 to 100°C. The fracture appearance transition temperature is determined by a fractographic investigation.
N.A. Polekhina, V.V. Linnik, I.Y. Litovchenko, K.V. Almaeva, V.M. Chernov, M.V. Leontieva-Smirnova
 Article
Journal section: Structure design and analysis

As a result of cryogenic deformation of Ni to 90%, a coarse fibered structure with a developed nanocellular substructure and extremely low amounts of dynamically recrystallized nanosized grains was formed.

Effect of strain of cryorolling on structure and strength of nickel

As a result of cryogenic deformation of Ni to 90%, a coarse fibered structure with a developed nanocellular substructure and extremely low amounts of dynamically recrystallized nanosized grains was formed.
M.V. Markushev, I.S. Valeev, E.V. Avtokratova, R.R. Ilyasov, A.K. Valeeva, S.V. Krimsky, O.S. Sitdikov
 Article

Microstructure of beta titanium alloy VT35 after different thermo-mechanical treatments.

The effect of preliminary treatment with subsequent aging on structural-phase state and mechanical properties of β titanium alloy

Microstructure of beta titanium alloy VT35 after different thermo-mechanical treatments.
E.V. Naydenkin, I.V. Ratochka, I.P. Mishin, O.N. Lykova, O.V. Zabudchenko
 Article

The influence of warm plastic deformation by rolling at 600 and 900 °C with a total strain of e = 2 on the microstructure and mechanical properties of the reactor austenitic steel EK-164 has been studied. The resulting fragmented banded microstructure with a well-developed substructure and fine grains provides high strength properties.

Microstructure and mechanical properties of austenitic steel EK-164 after warm rolling

The influence of warm plastic deformation by rolling at 600 and 900 °C with a total strain of e = 2 on the microstructure and mechanical properties of the reactor austenitic steel EK-164 has been studied. The resulting fragmented banded microstructure with a well-developed substructure and fine grains provides high strength properties.
S.A. Akkuzin, I.Y. Litovchenko, A.V. Kim, E.N. Moskvichev, V.M. Chernov
 Article
Journal section: Structure design and analysis

Modeling of the structure and electronic properties was carried out from the first principles for the polymorphic varieties of graphene with adsorbed hydroxyl groups (hydroxygraphene), where basic graphene layer structure consisted exclusively of 4-8 paired topological defects.

Modeling the structure and electronic properties of new polymorphic L4-8 hydroxygraphene varieties

Modeling of the structure and electronic properties was carried out from the first principles for the polymorphic varieties of graphene with adsorbed hydroxyl groups (hydroxygraphene), where basic graphene layer structure consisted exclusively of 4-8 paired topological defects.
M.E. Belenkov, V.A. Greshnyakov, V.M. Chernov
 Article

A new low-activation chromium-manganese austenitic steel for nuclear power engineering with an increased manganese content and additional alloying with strong carbide formers has been fabricated. The new steel has improved strength and ductility properties compared to known analogues.

New low-activation austenitic steel for nuclear power engineering

A new low-activation chromium-manganese austenitic steel for nuclear power engineering with an increased manganese content and additional alloying with strong carbide formers has been fabricated. The new steel has improved strength and ductility properties compared to known analogues.
I.Y. Litovchenko, S.A. Akkuzin, N.A. Polekhina, K.V. Almaeva, E.N. Moskvichev, A.V. Kim, V.V. Linnik, V.M. Chernov
 Article
Journal section: Structure design and analysis

Studies of the effect of the introduction of charged aluminum oxyhydroxide (AO) nanoparticles into calcium phosphate porous coatings formed by micro-arc oxidation on their electrical potential and structure are presented.  An increase in the duration of ultrasonic dispersion of initial AlN powder suspension from 10 to 60 min and an increase in the surface roughness of the coatings, parameter Ra, from 3.5 to 5.5 µm led to an increase in the surface electrical potential from −85 to −35 mV.

Structure and electrical potential of calcium phosphate coatings modified with aluminum oxyhydroxide nanoparticles

Studies of the effect of the introduction of charged aluminum oxyhydroxide (AO) nanoparticles into calcium phosphate porous coatings formed by micro-arc oxidation on their electrical potential and structure are presented. An increase in the duration of ultrasonic dispersion of initial AlN powder suspension from 10 to 60 min and an increase in the surface roughness of the coatings, parameter Ra, from 3.5 to 5.5 µm led to an increase in the surface electrical potential from −85 to −35 mV.
V.V. Chebodaeva, M.B. Sedelnikova, A.D. Kashin, O.V. Bakina, I.A. Khlusov, A.L. Zharin, V.S. Egorkin, I.E. Vyaliy, Y.P. Sharkeev
 Article

The single-step (low-temperature) homogenization of the Al alloy 1570C, recommended by the alloy developers, did not lead to the complete removal of chemical heterogeneity arising during crystallization. An additional high-temperature annealing step resulted in some reduction in the alloy strength, but was effective in eliminating the chemical heterogeneity of the cast structure and increasing corrosion resistance while maintaining the grain size and dispersity and coherency of the nanosized Al3(Sc,Zr) dispersoids present in the alloy.

Effect of homogenization on the structure, hardness and corrosion resistance of 1570C alloy

The single-step (low-temperature) homogenization of the Al alloy 1570C, recommended by the alloy developers, did not lead to the complete removal of chemical heterogeneity arising during crystallization. An additional high-temperature annealing step resulted in some reduction in the alloy strength, but was effective in eliminating the chemical heterogeneity of the cast structure and increasing corrosion resistance while maintaining the grain size and dispersity and coherency of the nanosized Al3(Sc,Zr) dispersoids present in the alloy.
E.V. Avtokratova, O.S. Sitdikov, R.R. Zagitov, M.V. Markushev
 Article
Journal section: Structure design and analysis

New rolling mill 400 for asymmetrical rolling in NMSTU, Magnitogorsk

Experience in obtaining laminated aluminum composites by asymmetric accumulative roll bonding

New rolling mill 400 for asymmetrical rolling in NMSTU, Magnitogorsk
O.D. Biryukova, A.M. Pesin, D.O. Pustovoitov
 Article

Better formability of the novel alloy is mainly due to the high content of the beta phase.
Superplastic forming results in improvement of the microstructure homogeneity.

Superplastic forming of titanium alloys at 700°C

Better formability of the novel alloy is mainly due to the high content of the beta phase. Superplastic forming results in improvement of the microstructure homogeneity.
M.R. Shagiev, A.A. Kruglov, O.A. Rudenko, M.A. Murzinova
 Article
Journal section: Structure design and analysis

The synthesized material mainly consists of amorphous carbon with graphite crystallites, the maximum amount of which is formed during an arc discharge in nitrogen.

Experimental and theoretical study of the conditions for the formation of carbon nanostructures in an arc discharge in helium, argon and nitrogen

The synthesized material mainly consists of amorphous carbon with graphite crystallites, the maximum amount of which is formed during an arc discharge in nitrogen.
S.Z. Sakhapov, V.A. Andryushchenko, E.V. Boyko, M.S. Skirda, D.V. Smovzh
 Article

Dependence of the critical currents on the thickness of the non-magnetic layer in a spin-transfer nanoscillator.

Influence of the thickness of a nonmagnetic layer on the coupled dynamics of magnetic vortices in a spin-transfer nanooscillator

Dependence of the critical currents on the thickness of the non-magnetic layer in a spin-transfer nanoscillator.
V.V. Mukhamadeeva, S.V. Stepanov, K.A. Zvezdin, E.G. Ekomasov
 Article

Investigation by simulation methods of the development of defects in a polycrystal of aluminum bronze and their stability when interacting with a melt drop during surfacing.

Simulation of deformation and growth during surfacing of aluminum bronze nanograins

Investigation by simulation methods of the development of defects in a polycrystal of aluminum bronze and their stability when interacting with a melt drop during surfacing.
A.Y. Nikonov, D.V. Lychagin, A.A. Bibko, O.S. Novitskaya
 Article

Представлены две деформационные кривые при растяжении без тока и с током в сплаве с памятью формы. Видны скачки напряжения вверх и вниз, вызванные фазовым преращением и электропластическим эффектом, соответственно.

Atypical behavior of materials during current-assisted tension

Представлены две деформационные кривые при растяжении без тока и с током в сплаве с памятью формы. Видны скачки напряжения вверх и вниз, вызванные фазовым преращением и электропластическим эффектом, соответственно.
V.V. Stolyarov
 Article


The interaction of a lattice edge dislocation with a 〈110〉 tilt boundary in nickel was studied by the molecular dynamics method in the case when the dislocation glide plane is parallel to the grain tilt axis

Interaction of an edge dislocation with a 〈110〉 tilt boundary in nickel: molecular dynamics simulation

The interaction of a lattice edge dislocation with a 〈110〉 tilt boundary in nickel was studied by the molecular dynamics method in the case when the dislocation glide plane is parallel to the grain tilt axis
G.M. Poletaev, Y.V. Bebikhov, A.S. Semenov, R.Y. Rakitin
 Article

Thermal conductivity of diamond materials in transition from monocrystals to nanostructured nanodiamond composites declines two orders down due to the change in dominating factor that contributes to the thermal resistance – phonon scattering upon inner defects is changed by domination of phonon scattering at boundaries.

Heat-conducting properties of thermobarically-sintered detonation nanodiamond

Thermal conductivity of diamond materials in transition from monocrystals to nanostructured nanodiamond composites declines two orders down due to the change in dominating factor that contributes to the thermal resistance – phonon scattering upon inner defects is changed by domination of phonon scattering at boundaries.
V.A. Plotnikov, D.G. Bogdanov, A.S. Bogdanov, A.A. Chepurov, S.V. Makarov, A.P. Yelisseyev, E.I. Zhimulev, V.G. Vins
 Article
Journal section: Structure design and analysis

The effect of carbon-alloying (1 at.%) on the hydrogen embrittlement susceptibility of equiatomic high-entropy alloy FeNiCoCrMn has been studied. The carbon-alloyed alloy has higher resistance to hydrogen embrittlement compared to the interstitial-free Cantor alloy.

Effect of carbon alloying on hydrogen embrittlement of a Cantor alloy

The effect of carbon-alloying (1 at.%) on the hydrogen embrittlement susceptibility of equiatomic high-entropy alloy FeNiCoCrMn has been studied. The carbon-alloyed alloy has higher resistance to hydrogen embrittlement compared to the interstitial-free Cantor alloy.
M.Y. Panchenko, E.V. Melnikov, D.Y. Gurtova, E.G. Astafurova
 Article

Multilayer structures of resistive sensors  based on thin polymer films, SEM images of microstructures of film samples and calibration characteristics

Effect of the morphology of films of polyaniline derivatives poly-2-[(2E)-1‑methyl-2‑butene-1‑yl]aniline and poly-2-(cyclohex-2‑en-1‑yl)aniline on sensory sensitivity to humidity and ammonia vapors

Multilayer structures of resistive sensors based on thin polymer films, SEM images of microstructures of film samples and calibration characteristics
R.B. Salikhov, I.N. Mullagaliev, B.R. Badretdinov, A.D. Ostaltsova, T.T. Sadykov, A.G. Mustafin
 Article

HAADF image of the cross section of the NiCrBSiC coating

Microstructure of the deposited NiCrBSiC coating after laser polishing

HAADF image of the cross section of the NiCrBSiC coating
L.E. Afanasieva, I.S. Pavlov
 Article
Journal section: Structure design and analysis

Changes in the microstructure of quenched pure iron after the tempering procedure for 1 hour at a temperature of 160 - 220 °C.

Rationale for signs of transformation in iron near 200°C

Changes in the microstructure of quenched pure iron after the tempering procedure for 1 hour at a temperature of 160 - 220 °C.
K.Y. Shakhnazarov, E.I. Pryakhin, E.Y. Troshina
 Article

XRD patterns from annealed Cu-Al-Cu samples after conventional (left pattern) and accumulative (right pattern) HPT.

Effect of annealing on the structure and phase composition of Cu-Al composite produced by conventional and accumulative HPT

XRD patterns from annealed Cu-Al-Cu samples after conventional (left pattern) and accumulative (right pattern) HPT.
V.N. Danilenko, L.U. Kiekkuzhina, N.Y. Parkhimovich, D.V. Gunderov
 Article
Journal section: Structure design and analysis

SEM images of the graphene nanofilm in the matrix of AlMgGr composite and after it dissolution in 20% HCl. Raman spectrums of the graphene nanofilms in AlMgGr composite and the graphene films obtained after dissolution of the composite in 20% HCl.

Structure formation and physical-mechanical properties of Al-Mg alloy with microadditions of graphene

SEM images of the graphene nanofilm in the matrix of AlMgGr composite and after it dissolution in 20% HCl. Raman spectrums of the graphene nanofilms in AlMgGr composite and the graphene films obtained after dissolution of the composite in 20% HCl.
I.G. Brodova, L.A. Yolshina, D.Y. Rasposienko, R.V. Muradymov, I.G. Shirinkina, S.V. Razorenov, A.N. Petrova, E.V. Shorokhov
 Article
Journal section: Structure design and analysis