Papers accepted for publication

Ni-14(Al, Ta)-30.7(Co, Cr, W, Hf) (wt.%) superalloy microstructure.

Microstructure and mechanical properties of a heat resistant nickel base superalloy heavily alloyed with substitution elements

V.M. Imayev, S.K. Mukhtarov, A.V. Logunov, A.A. Ganeev, R.V. Shakhov, R.I. Zainullin, N.Y. Parkhimovich, R.M. Imayev
 Article





Scheme of passivation of compact samples.

Gravimetric investigation of passivation of compact samples made of nickel pyrophoric nanopowders

M.I. Alymov, B.S. Seplyarskii, S.G. Vadchenko, R.A. Kochetkov, V.A. Zelensky, N.M. Rubtsov, A.S. Shchukin , I.D. Kovalev, N.I. Abzalov
 Article
Journal section: Structure design and analysis

The degradation processes occurring in massive inclusions of the chromium-nickel cast iron carbide phase during deformation at high temperatures (400-600 ºС) are studied. The effect of the local deformations on easy slip of dislocations is considered. We also demonstrate that during the dislocation slip, the new phases appear and the energy dissipates.

Features of the carbide phase degradation under heating and deformation

T.S. Skoblo, O.Y. Klochko, V.N. Romanchenko, E.L. Belkin
 Article
Journal section: Structure design and analysis

Polymer сomposites with a concentration of 20 wt. % polyethylene and 80 wt. % iron exhibit extrinsic piezoresistance of about 30% in the pressure range of 0–170 kPa

Еlasto-elastic composite materials with a polymer matrix based on ultrafine iron and polyethylene

Y.V. Kabirov, E.N. Sidorenko, N.V. Prutsakova, M.V. Belokobylsky, A.O. Letovaltsev, E.V. Сhebanova, E.B. Rusakova
 Article
Journal section: Structure design and analysis

Iron atoms in solid solutions of magnesium-bismuth niobate have the charge state of Fe3+.

Magnetic susceptibility and NEXAFS spectra of Fe, Mg-codoped bismuth niobate pyrochlore

N.A. Zhuk, B.A. Makeev, S.V. Nekipelov, R.I. Korolev, А.А. Utkin, G.I. Chernykh
 Article
Journal section: Structure design and analysis



The relation of the coefficient n in the equation hmax=1/nπ ((K1C (KC ))/σ0.2 )2 (where hmax is the maximum depth of the plastic zone under the fracture surface) with the criterion of the local stress state hmax/t for CG and UFG materials with BCC, FCC and HCP lattice when testing samples for static crack resistance

Determination of static fracture toughness of coarse-grained and ultrafine-grained materials by the depth of the plastic zone under the fractures surface

G.V. Klevtsov, R.Z. Valiev, N.A. Klevtsova, I.N. Pigaleva
 Article