Майер Александр Евгеньевич

Заведующий лабораторией — НИЛ ?Математическое моделирование быстропротекающих процессов в многокомпонентных и многофазных средах?

Доктор физико-математических наук

E-mail:

maierae[at]susu[dot]ru

Индекс Хирша:

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Статьи и монографии за последние три года:

Fomin, E.. Prediction of shear strength of cluster-strengthened aluminum with multi-scale approach describing transition from cutting to bypass of precipitates by dislocations / E.. Fomin, A.. Mayer, V.. Krasnikov //International Journal of Plasticity.–2021.–Vol. 146

Khishchenko, K.V High- and low-entropy layers in solids behind shock and ramp compression waves / K.V. Khishchenko, A.E. Mayer //International Journal of Mechanical Sciences.–2021.–Vol. 189

Mayer, A. Dislocation nucleation in Al single crystal at shear parallel to (111) plane: Molecular dynamics simulations and nucleation theory with artificial neural networks / A.. Mayer, V.. Krasnikov, V.. Pogorelko //International Journal of Plasticity.–2021.–Vol. 139

Mayer, A.E Micromechanical model of nanoparticle compaction and shock waves in metal powders / A.E. Mayer //International Journal of Plasticity.–2021.–Vol. 147

Borodin, E.N. Coupled model for grain rotation, dislocation plasticity and grain boundary sliding in fine-grained solids / E.N. Borodin, A.E. Mayer, M.Y. Gutkin //International Journal of Plasticity.–2020.–Vol. 134

Ebel, A.A Scalability of increase in spall threshold in the presence of cylindrical protrusions on metals surface / A.A. Ebel, A.E. Mayer //Journal of Physics: Conference Series.–2020.–Vol. 1556 No. 1

Fomin, E.V. Slip of low-angle tilt grain boundary (110) in FCC metals at perpendicular shear / E.V. Fomin, A.E. Mayer //International Journal of Plasticity.–2020.–Vol. 134

Interaction of dislocation with GP zones or θ? phase precipitates in aluminum: Atomistic simulations and dislocation dynamics / Krasnikov, V.S //International Journal of Plasticity.–2020.–Vol. 125.– P.169-190

Krasnikov, V.S Prediction of the shear strength of aluminum with θ phase inclusions based on precipitate statistics, dislocation and molecular dynamics / V.S. Krasnikov, A.E. Mayer, V.V. Pogorelko //International Journal of Plasticity.–2020.–Vol. 128 No. -

Latypov, F.T. Dynamics of growth and collapse of nanopores in copper / F.T. Latypov, A.E. Mayer, V.S. Krasnikov //International Journal of Solids and Structures.–2020.–Vol. 202.– P.418-433

Mayer, A.E Plastic deformation at dynamic compaction of aluminum nanopowder: Molecular dynamics simulations and mechanical model / A.E. Mayer, A.A. Ebel, M.K. Al-Sandoqachi //International Journal of Plasticity.–2020.–Vol. 124.– P.22-41

Mayer, A.E Strain rate dependence of spall strength for solid and molten lead and tin / A.E. Mayer, P.N. Mayer //International Journal of Fracture.–2020.–Vol. 222 No. 1-2.– P.171-195

Krasnikov, V. Dislocation dynamics in aluminum containing phase: Atomistic simulation and continuum modeling / V.. Krasnikov, A.. Mayer //International Journal of Plasticity.–2019.–Vol. 119.– P.21-42

Mayer, A.E Evolution of pore ensemble in solid and molten aluminum under dynamic tensile fracture: Molecular dynamics simulations and mechanical models / A.E. Mayer, P.N. Mayer //International Journal of Mechanical Sciences.–2019.–Vol. 157-158 No. -.– P.816-832

Dislocation based plasticity in the case of nanoindentation / Zhao Kai //International Journal of Mechanical Sciences.–2018.–Vol. 148 No. -.– P.158-173

Ebel, A.A Influence of deposited nanoparticles on the spall strength of metals under the action of picosecond pulses of shock compression / A.A. Ebel, A.E. Maier //Journal of Physics: Conference Series.–2018.–Vol. 946

Krasnikov, V.S Influence of local stresses on motion of edge dislocation in aluminum / V.S. Krasnikov, A.E. Maier //International Journal of Plasticity.–2018.–Vol. 101.– P.170-187

Pogorelko, V.V High-speed collision of copper nanoparticles with aluminum surface: Inclined impact, interaction with roughness and multiple impact / V.V. Pogorelko, V.S. Krasnikov, A.E. Maier //Computational Materials Science.–2018.–Vol. 142.– P.108-121

Аль-Сандокачи, М. МОЛЕКУЛЯРНО-ДИНАМИЧЕСКОЕ МОДЕЛИРОВАНИЕ УДАРНО-ВОЛНОВОГО КОМПАКТИРОВАНИЯ АЛЮМИНИЕВОГО НАНОПОРОШКА / М.Х. Аль-Сандокачи, А.А. Эбель, А.Е. Майер //Челябинский физико-математический журнал.–2018.–Том 3 № 4.– C.453-475

К вопросу о инновационных способах получения материалов для покрытий поверхностей технологического оборудования на предприятиях пищевой индустрии / И.Ю. Потороко //ВЕСТНИК ЮЖНО-УРАЛЬСКОГО ГОСУДАРСТВЕННОГО УНИВЕРСИТЕТА. СЕРИЯ: ПИЩЕВЫЕ И БИОТЕХНОЛОГИИ.–2018.–Том 6 № 4.– C.20-28

Майер, П.Н. Evolution of foamed aluminum melt at high rate tension: A mechanical model based on atomistic simulations / П.Н. Майер, A.E. Maier //Journal of Applied Physics.–2018.–Vol. 124(3)

Майер, П.Н. Size distribution of pores in metal melts at non-equilibrium cavitation and further stretching, and similarity with the spall fracture of solids / П.Н. Майер, A.E. Maier //International Journal of Heat and Mass Transfer.–2018.–Vol. 127.– P.643-657

Попова, Т.В. Evolution of shock compression pulses in polymethylmethacrylate and aluminum / Т.В. Попова, A.E. Maier, К.В. Хищенко //Journal of Applied Physics.–2018.–Vol. 123(23)

Comparative study of shock-wave hardening and substructure evolution of 304L and Hadfield steels irradiated with a nanosecond relativistic high-current electron beam / С.Ф. Гнюсов //Journal of Alloys and Compounds.–2017.–Vol. 714.– P.232-244

Dynamic methods of nanoparticle assembly: High-velocity impact and shock-wave compaction / Mayer, A.E //Simulation for Additive Manufacturing 2017, Sinam 2017.–2017.–Vol. 2017-October.– P.21-22

Maier, A.E Shock-induced compaction of nanoparticle layers into nanostructured coating / A.E. Maier, A.A. Ebel //Journal of Applied Physics.–2017.–Vol. 122(16)

Бородин, И.Н. Influence of structure of grain boundaries and size distribution of grains on the yield strength at quasistatic and dynamical loading / И.Н. Бородин, A.E. Maier //Materials Research Express.–2017.–Vol. 4(8)

Эбель, А.А. ПЛАСТИЧЕСКАЯ ДЕФОРМАЦИЯ НАНОСТРУКТУРИРОВАННОЙ ПОВЕРХНОСТИ МЕТАЛЛА ПРИ ОТРАЖЕНИИ УДАРНОЙ ВОЛНЫ / А.А. Эбель, А.Е. Майер //Федеральное государственное бюджетное учреждение науки Институт металлургии и материаловедения им. А.А. Байкова Российской академии наук (ИМЕТ РАН) (Москва).–2017.– C.259-260

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Майер Александр Евгеньевич