Попов Михаил
Публикации


Общее число записей - 19
1 Popov M. Friction under large-amplitude normal oscillations //Facta Universitatis, Series: Mechanical Engineering. 2021. Vol. 19, № 1. P. 105-113.
2 Popov M. Macroscopic models for active control of friction and frictional actuators //Международная конференция "Физическая мезомеханика. Материалы с многоуровневой иерархически организованной структурой и интеллектуальные производственные технлогии", посвященная 90-летию со дня рождения основателя и первого директора ИФПМ СО РАН академика Виктора Евгеньевича Панина в рамках Международного междисциплинарного симпозиума «Иерархические материалы: разработка и приложения для новых технологий и надежных конструкций», 5-9 октября 2020 г. : тезисы докладов. Томск: Изд-во ТГУ, 2020. P. 43.
3 Popov M. The influence of vibration on friction: A contact-mechanical perspective //Frontiers in Mechanical Engineering. 2020. Vol. 6. P. 69-1-69-8. URL: https://www.frontiersin.org/articles/10.3389/fmech.2020.00069/full (date of access: 05.11.2020).
4 Benad J., Nakano K., Popov V.L., Popov M. Active control of friction by transverse oscillations //Friction. 2019. Vol. 7, № 1. P. 74-85.
5 Benad J., Popov M., Nakano K., Popov V.L. Stiff and soft active control of friction by vibrations and their energy efficiency //Forschung im Ingenieurwesen. 2018. Vol. 82, № 4. P. 331-339.
6 Popov M., Li Q. Multimode active control of friction, dynamic ratchets and actuators //Physical Mesomechanics. 2018. Vol. 21, № 1. P. 24-31.
7 Mao X., Popov V.L., Starcevic J., Popov M. Reduction of friction by normal oscillations. II. In-plane system dynamics //Friction. 2017. Vol. 5, № 2. P. 194-206.
8 Popov M., Popov V.L., Popov N.V. Reduction of friction by normal oscillations. I. Influence of contact stiffness //Friction. 2017. Vol. 5, № 1. P. 45-55.
9 Popov M. Critical velocity of the sliding friction controllability by normal oscillations in viscoelastic contacts //Facta Universitatis, Series: Mechanical Engineering. 2016. Vol. 14, № 3. P. 335-341.
10 Lyashenko I.A., Filippov A.E., Popov M., Popov V.L. Effect of stress nonhomogeneity on the shear melting of a thin boundary lubrication layer //Physical Review E. 2016. Vol. 94, № 5. P. 053002-1-053002-8.
11 M. Popov, V.L. Popov. Relaxation Damping in Contacts under Superimposed Normal and Torsional Oscillation //Physical Mesomechanics. 2016. Vol. 19, № 2. P. 178-181.
12 E.V. Shilko, Y.V. Grinyaev, M. Popov, V.L. Popov, S.G. Psakhie. Nonlinear effect of elastic vortexlike motion on the dynamic stress state of solids //Physical Review E. 2016. Vol. 93, № 5. P. 053005-1-053005-8.
13 Popov M., Popov V.L., Pohrt R. Relaxation damping in oscillating contacts // Scientific Reports. 2015. Vol. 5. P. 16189-1‒16189-9. DOI: 10.1038/srep16189
14 Popov M., Li. Q., N. Popov. Damping in viscoelastic contacts under combined normal and tangential oscillation //AIP Conference Proceedings. 2015. Vol. 1683. P. 020187-1-020187-4.
15 Popov V.L., Dimaki A.V., Psakhie S.G., Popov M. On the role of scales in contact mechanics and friction between elastomers and randomly rough self-affine surfaces // Scientific Reports. 2015. Vol. 5. P. 1‒7. DOI: 10.1038/srep11139
16 Psakhie S.G., Shilko E.V., Popov M., Popov V.L. Key role of elastic vortices in the initiation of intersonic shear cracks //Physical Review E. 2015. Vol. 91, № 6. P. 063302-1-063302-6.
17 Popov M. Non-frictional damping in the contact of two fibers subject to small oscillations //Facta Universitatis, Series: Mechanical Engineering. 2015. Vol. 13, № 1. P. 21-25.
18 Kinetics of the coefficient of friction of elastomers / Li. Q., Dimaki A.V., Popov M., Psakhie S.G. [et al] // Scientific Reports. 2014. Vol. 4. P. 5795-1‒5795-5. DOI: 10.1038/srep05795
19 Popov V.L., Psakhie S.G., Popov M. On the Role of Scales in Elastomer Friction //AIP Conference Proceedings. 2014. Vol. 1623. P. 507-510.