Papers accepted for publication

A microphotograph of a cross-section of SMFM-Pb with a porous bronze layer having a "columnar" structure: 1 - steel base, 2 - spike of the bronze layer, 3 – PTFE-composition.

Investigation of Tribological Properties of Sheet Metalfluoroplastic Materials

V. Kornopol'tsev, D. Mognonov, O. Ayurova, M. Dashitsyrenova, A. Subanakov

Article

Journal section: Experimental methods in materials research

On the original laboratory bench, which allows to simulate the technological cooling rates of hot-rolled sheets in the process of controlled thermomechanical processing, the thermal effect of bainitic transformation in low-carbon low-alloy tube steel 06G2MB type is determined.

Thermal effect of bainitic transformation in tube steel by accelerated cooling

M.L. Lobanov, G.M. Rusakov, V.N. Urtsev, Krasnov Maksim Lvovich Maksim Lvovich, Mokshin Evgeniy Dmitrievich Evgeniy Dmitrievich, Shmakov Anton Viktorovich Anton Viktorovich, S.I. Platov

Article

Journal section: Experimental methods in materials research

A mesoscopic distinct element method enables large-scale modeling of carbon nanotube networks. Massively parallel dynamics engine allows studying self-assembly and mechanics of micrometer-size specimens.

Toward large scale modeling of carbon nanotube systems with the mesoscopic distinct element method

I. Ostanin, P. Zhilyaev, V. Petrov, T. Dumitrica, S. Eibl, U. Ruede, V. Kuzkin

Article

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

Papers accepted for publication

Investigation of Tribological Properties of Sheet Metalfluoroplastic Materials

Thermal effect of bainitic transformation in tube steel by accelerated cooling

Toward large scale modeling of carbon nanotube systems with the mesoscopic distinct element method

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