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sector */</p> <hr /> <div>[[:en:Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''Department Staff''' &lt;HR&gt;<br /> <br /> {{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt;Employees of the Department &quot;Theoretical Mechanics&quot;&lt;/font&gt;<br /> <br /> [http://tm.spbstu.ru/%D0%A1%D0%BE%D1%82%D1%80%D1%83%D0%B4%D0%BD%D0%B8%D0%BA%D0%B8_%D0%BA%D0%B0%D1%84%D0%B5%D0%B4%D1%80%D1%8B_%22%D0%A2%D0%B5%D0%BE%D1%80%D0%B5%D1%82%D0%B8%D1%87%D0%B5%D1%81%D0%BA%D0%B0%D1%8F_%D0%BC%D0%B5%D1%85%D0%B0%D0%BD%D0%B8%D0%BA%D0%B0%22 In Russian]<br /> <br /> [[File:Kaf_TM.jpg|right|thumb|300px|[[Department Staff]]]]<br /> <br /> == Employees of the &quot;Polytech&quot; sector ==<br /> <br /> # [http://www.ipme.ru/ipme/labs/mmmm/Antimonov.htm Antimonov Mihail Aleksandrovich], technician (Part-time employee).<br /> # [[:ru:Igor_Asonov|Asonov Igor Evgenevich]], leading programmer (Part-time employee).<br /> # [[:ru:Igor_Berinskii|Berinskii Igor Efimovich]], associate professor (Part-time employee), Ph.D., Deputy Head of International Activities.<br /> # Borisenko Lyudmila Aleksandrovna, Secretary of the Department.<br /> # [[:ru:Vilchevskaya_ENG|Vilchevskaya Elena Nikitichna]], associate professor (Part-time employee), Ph.D.<br /> # Grigorieva Svetlana Nikolaevna, senior lecturer.<br /> # Guzev Valentin Vasilievich, professor, Sc.D.<br /> # [[:ru:Polina Dyatlova|Dyatlova Polina Aleksandrovna]], associate professor, Ph.D., Assistant Manager.<br /> # Emtsov Vladimir Georgievich, associate professor.<br /> # [[:ru:Ivanova|Ivanova Elena Aleksandrovna]], professor, Sc.D.<br /> # Karyakin Yuriy Evgenevich, professor, Sc.D.<br /> # [[:en:Anton Krivtsov|Krivtsov Anton Miroslavovich]], Head of Department, Sc.D.<br /> # Krokhaleva Galina Vladimirovna, assistant lecturer (Part-time employee), technician (Part-time employee).<br /> # Kostarev Aleksey Vladimirovich, associate professor, Ph.D.<br /> # Kostareva Tatyana Alekseevna, senior lecturer.<br /> # [[:ru:Vitaly_Kuzkin|Kuzkin Vitaly Andreevich]], assistant lecturer (Part-time employee), Deputy Head for Research Affairs.<br /> # Kuznetsova Anna Yurevna, assistant lecturer (Part-time employee).<br /> # Lebedev Dmitry Fedorovich, associate professor, Ph.D.<br /> # Le-Zakharov Aleksandr Anevich, associate professor (Part-time employee), Deputy Head of Prospecting Projects.<br /> # Le-Zakharov Sergey Anevich, assistant lecturer (Part-time employee).<br /> # [[:ru:Olga_Loboda|Loboda Olga Sergeevna]], associate professor, Ph.D., Deputy Head of Academic Affairs<br /> # Mesheryakov Yury Ivanovich, professor (Part-time employee).<br /> # [[:ru:Andrey_Murachev|Murachev Andrey Sergeevich]], leading programmer (Part-time employee).<br /> # Nosov Vyacheslav Nikolaevich, associate professor, Ph.D.<br /> # [[:en:Panchenko_Artem|Panchenko Artem Yurevich]], assistant lecturer, technician (Part-time employee).<br /> # Polyahov Nikolai Nikolaevich, associate professor, Ph.D.<br /> # [[Podolskaya_Ekaterina|Podolskaya Ekaterina Aleksandrovna]], assistant lecturer (Part-time employee).<br /> # [[Alexey Porubov|Porubov Aleksey Viktorovich]], professor (Part-time employee), Sc.D.<br /> # Prokhorenko Fedor Fedorovich, senior lecturer.<br /> # Sablin Aleksandr Dmitrievich, associate professor, Ph.D.<br /> # Tikhomirov Viktor Vasilevich, associate professor, Ph.D., Vice Dean.<br /> # Troickaya Olga Anatolevna, associate professor, Ph.D., Scientific Secretary.<br /> # [http://www.ipme.ru/ipme/labs/mmmm/Filippov.htm Filippov Roman Aleksandrovich], assistant lecturer (Part-time employee).<br /> # Shchukina Vera Ivanovna, senior lecturer.<br /> <br /> == Employees of the &quot;PIMash&quot; sector ==<br /> <br /> # Agarkova Nataliya Nikolaevna, associate professor, Ph.D.<br /> # [[:ru:Журавлева_Елена_Юрьевна|Zhuravleva Elena Yurevna]], associate professor, Ph.D.<br /> # [[:ru:Иванова_Елена_Гелиевна|Ivanova Elena Gelievna]], associate professor, Ph.D.<br /> # Kazakevich Andrey Genrikhovich, associate professor (Part-time employee),Ph.D.<br /> # Petrova Nina Aleksandrovna, senior laboratory assistant.<br /> # Soytu Nataliya Yurevna, associate professor (Part-time employee), Ph.D.<br /> # [[:ru:Хитрик_Валерий_Эмильевич|Hitrik Valeriy Yemilevich]], associate professor, Ph.D.<br /> <br /> == External collaborators ==<br /> <br /> # Belyaeva Ekaterina Vitalevna<br /> # Melikhov Efim Nikolaevich, [http://www.fmctechnologies.com/ FMC-Technologies]<br /> # Merkulova Anastasiya Vitalevna<br /> # Sotnik Dina, Siemens PLM<br /> # Shubin Sergey Nikolaevich, [http://www.fmctechnologies.com/ FMC-Technologies]<br /> # Klavdieva Ekaterina Dmitrievna<br /> <br /> == Links ==<br /> <br /> * [[:ru:Расписание занятий преподавателей|Class Schedule]] (in Russian)<br /> * [[Administration|Administration]]<br /> &lt;!--Staff,*[[:ru:Телефоны и электронные адреса сотрудников|Phone numbers and e-mail addresses of the employees]]}} (in Russian)<br /> <br /> [[:ru:Category:Коллективы|Category:Community]]--&gt;</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Alexey_Porubov&diff=7876 Alexey Porubov 2016-06-01T15:11:27Z <p>Кошелева Ксения Александровна: /* Employment */</p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Alexey V. Porubov &lt;/font&gt;<br /> <br /> [[File:Porubov.jpg|right|200px]]<br /> <br /> == Education ==<br /> <br /> * M.S. in Mechanics of fluid and gas, Leningrad Polytechnical Institute, 1987<br /> Thesis: &quot;Nonlinear Boussinesq equation wave solutions on inviscid liquid layer surface&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Ph.D. in Mechanics of fluid, gas and plasma, St.Petersburg Technical University, 1996<br /> Thesis: &quot;Nonlinear waves on thin viscous inhomogeneous liquid layer&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Doctor of Sciences in Mechanics of deformable solids, Institute for Problems in Mechanical Engineering RAS, 2007<br /> Thesis: &quot;Generation of strain solitary waves in nonlinear solids&quot;<br /> <br /> == Employment ==<br /> <br /> *Leading research fellow Institute for Problems in Mechanical Engineering of the Russian Academy of Sciences, ([http://www.ipme.ru IPME RAS]) (2007-2016)<br /> <br /> *Head of Laboratory of micro-mechanics of materials Institute for Problems in Mechanical Engineering, ([http://www.ipme.ru IPME RAS]) (since 2016) <br /> <br /> *Part-time Professor Saint-Petersburg Polytechnical University ([http://english.spbstu.ru/ Peter the Great Saint-Petersburg Polytechnic University]) (since 2013)<br /> <br /> == Current Research Interests ==<br /> <br /> :Analytical description of nonlinear waves in fluids and solids including soft biological tissues. Derivation of exact, asymptotic and numerical solutions to nonlinear nonintegrable equations. Continuum limits of discrete systems. Feedback control for nonlinear partial differential equations.<br /> <br /> == Books and collective monographs ==<br /> <br /> *A.V. Porubov Localization of nonlinear strain waves: asymptotic and numerical methods, Fizmatlit, Moscow, 2009, 208 p. in Russian.<br /> <br /> *A.V. Porubov Amplification of nonlinear strain waves in solids, World Scientific, Singapore, 2003, 213p.<br /> <br /> *A. V. Porubov, E. L. Aero and B. R. Andrievsky, Nonlinear Generalizations of the Born-Huang Model and Their Continuum Limits, In: H. Altenbach et al. (eds.), Generalized Continua as Models for Materials, Advanced Structured Materials (Springer, New York, 2013) P. 283–290.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Localized nonlinear strain waves in media with internal structure, In: Vibration Problems ICOVP 2011: the 10th International Conference on Vibration Problems, Springer Proceedings in Physics 139, J. N´aprstek et al. (eds.), (Springer, 2011) P. 687–692.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, E. L. Aero, Nonlinear Dynamic Properties in Media with Internal Structure, In: Mechanics of Generalized Continua, H. Altenbach, G.A. Maugin, V.I. Erofeyev (Eds.) (Springer, New York, 2011) P. 245–254.<br /> <br /> *A.V. Porubov,E. L. Aero and B. R. Andrievsky, Dynamic Properties of Essentially Nonlinear Generalized Continua, In: Mechanics of Generalized Continua One Hundred Years After the Cosserats, G.A. Maugin, A.V. Metrikine (Eds.) (Springer, New York, 2010) P. 161–168.<br /> <br /> *A.V. Porubov, Essentially Nonlinear Strain Waves in Solids with Complex Internal Structure. In: Mechanics of Microstructured Solids Cellular Materials, Fibre Reinforced Solids and Soft Tissues, J.-F. Ganghoffer and Franco Pastrone (Eds.)(Springer, Berlin, 2009) P. 119–126.<br /> <br /> *A.V. Porubov, Dissipative nonlinear strain waves in solids. In : ”Selected Topics in Nonlinear Wave Mechanics”, C.I. Christov and A. Guran, Editors (Birkh¯auser 2001)P.223-260.<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov and I.V. Semenova. Longitudinal strain solitons in nonlinearly elastic rod. In: Russian Science: Withstand and Revive, Collection of best popular science articles written for the contest, organized by the International Science Foundation (Nauka, Moscow 1997) P. 33-41 (in Russian)<br /> <br /> *A.V. Porubov, A.M. Samsonov, Amplification of longitudinal strain soliton in a nonlinearly elastic rod. In:”Problems of Applied Mathematics and Mathematical Physics” (St.Petersburg, Ioffe Institute, 2001) pp.212-225. in Russian<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov, I.V. Semenova and E.V. Sokurinskaya. Theory and observation of strain solitons in solids. In:Ioffe Institute Prize Winners’96(St.Petersburg 1997)P. 5-14. See also: www.ioffe.rssi.ru<br /> <br /> == Publications in Refereed Journals ==<br /> <br /> *A.V. Porubov, A.L. Fradkov, R.S. Bondarenkov and B.R. Andrievsky, Localization of the sine- Gordon equation solutions Commun. Nonlinear Sci Numer Simulat 39 (2016) 29–37. DOI: 10.1016/j.cnsns.2016.02.043<br /> <br /> *V. A. Eremeyev, A.V. Porubov, L. Placidi, Special issue in honor of Eron L. Aero, Mathematics and Mechanics of Solids, 21 (1) (2016) 3–5, DOI: 10.1177/1081286515588690<br /> <br /> *A.V. Porubov, I.E. Berinskii, Two-dimensional nonlinear shear waves in materials having hexagonal lattice structure, Mathematics and Mechanics of Solids, 21 (1) (2016) 94–103, DOI: 10.1177/1081286515577040<br /> <br /> *A.V. Porubov, I.V. Andrianov, B. Markert, Transverse instability of nonlinear longitudinal waves in hexagonal lattices, Proceedings of the Estonian Academy of Sciences , 64 , No 3S, (2015)349-355 DOI: 10.3176/proc.2015.3S.04<br /> <br /> *A.V. Porubov,A.L.Fradkov, B.R.Andrievsky, Feedback control for some solutions of the sine-Gordon equation, Applied Mathematics and Computation 269 (2015) 17–22. DOI: 10.1016/j.amc.2015.07.040<br /> <br /> *A.V. Porubov, I.E. Berinskii, Non-linear plane waves in materials having hexagonal internal structure, Int. J. Non-Linear Mech. 67 (2014) 27-33 DOI: 10.1016/ j.ijnonlinmec.2014.07.003<br /> <br /> *A.V. Porubov, Description of kink evolution by means of particular analytical solutions, Mathematics and Computers in Simulation (2014) in press DOI:<br /> 10.1016/j.matcom.2013.11.006<br /> <br /> *A.V. Porubov, Modeling of strongly nonlinear effects in diatomic lattices, Archive of Applied Mechanics 84, Issue 9 (2014), 1533–1538. DOI: 10.1007/s00419-014-0859-5<br /> <br /> *A.V. Porubov, I.V. Andrianov, Nonlinear waves in diatomic crystals, Wave Motion 50 (2013) 1153-1160. DOI information: 10.1016/j.wavemoti.2013.03.009<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Analytical solutions to detect the scheme dispersion for the coupled nonlinear equations. Commun. Nonlinear Sci Numer Simulat 18 (2013) 2679–2688.<br /> <br /> *A.V. Porubov, I.V. Andrianov, V.V. Danishevskyy, Nonlinear strain wave localization in periodic composites. International Journal of Solids and Structures 49 (2012) 3381–3387.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Kink and solitary waves may propagate together. Phys. Rev. E 85, 046604 (2012) [5 pages].<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Nonlinear dynamic variations in internal structure of a complex lattice. Nanosystems: physics, chemistry, mathematics 2 (3) (2011) P.65–70.<br /> <br /> *A.V. Porubov, G.A. Maugin, B.R. Andrievsky, Solitary wave interactions and reshaping in coupled systems, Wave Motion 48 (2011) 773-781, doi:10.1016/j.wavemoti.2011.04.012<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Influence of coupling on nonlinear waves localization.Commun. Nonlinear Sci Numer Simulat 16 (2011) 3964-3970.<br /> <br /> *A.V. Porubov, G.A. Maugin, Application of nonlinear strain waves to the study of the growth of long bones Int. J. Non-Linear Mech. 46 (2011) 387-394.<br /> <br /> *A.V. Porubov, Models for essentially nonlinear strain waves in materials with internal structure Proceedings of the Estonian Academy of Sciences 59 , No 2 (2010) 87 – 92.<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Compensation of the Scheme Dispersion and Dissipation by Artificial Non-linear Additions Trans. on Comput. Sci. VII, LNCS 5890, (2010) 122-131<br /> <br /> *A.V. Porubov, Model equations for essentially nonlinear longitudinal strain waves Nonlinear world, 7, No 10 (2009) 796-801. [in Russian]<br /> <br /> *A.V. Porubov, E.L. Aero, G.A. Maugin, Two approaches to study essentially nonlinear and dispersive properties of the internal structure of materials, Phys. Rev. E, 79, 046608 (2009) [12 pages]<br /> <br /> *A.V. Porubov, G.A. Maugin, Cubic non-linearity and longitudinal surface solitary waves, Int. J. Non-Linear Mech., 44 (2009) 552-559 , doi: 10.1016/j.ijnonlinmec. 2008.09.003<br /> <br /> == Reviewer ==<br /> <br /> :Physics Letters A, Wave Motion, Physica Scripta, Physica Status Solidi, Technical Physics Letters, Journal of Applied Physics, Journal of Physics and Chemistry of Solids, Ocean Engineering, International Journal of Non-linear Mechanics, Communications in Nonlinear Science and Numerical Simulation, Proceedings of the Estonian Academy of Sciences, Physica D, Journal of Acoustic Society of America, Journal of Sound and Vibrations, ZAMM, Chaos, Applied Mathematical Modeling, International Journal of Engineering Science, Journal of Mathematical Analysis and Applications, Continuum Mechanics and Thermodynamics, Mathematics and Computers in Simulation, Proceedings of the Royal Society A</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Alexey_Porubov&diff=7875 Alexey Porubov 2016-06-01T15:01:47Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Alexey V. Porubov &lt;/font&gt;<br /> <br /> [[File:Porubov.jpg|right|200px]]<br /> <br /> == Education ==<br /> <br /> * M.S. in Mechanics of fluid and gas, Leningrad Polytechnical Institute, 1987<br /> Thesis: &quot;Nonlinear Boussinesq equation wave solutions on inviscid liquid layer surface&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Ph.D. in Mechanics of fluid, gas and plasma, St.Petersburg Technical University, 1996<br /> Thesis: &quot;Nonlinear waves on thin viscous inhomogeneous liquid layer&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Doctor of Sciences in Mechanics of deformable solids, Institute for Problems in Mechanical Engineering RAS, 2007<br /> Thesis: &quot;Generation of strain solitary waves in nonlinear solids&quot;<br /> <br /> == Employment ==<br /> <br /> *Leading research fellow Institute for Problems in Mechanical Engineering of the Russian Academy of Sciences<br /> <br /> *Head of Laboratory of micro-mechanics of materials Institute for Problems in Mechanical Engineering<br /> <br /> *Part-time Professor Saint-Petersburg Polytechnical University<br /> <br /> == Current Research Interests ==<br /> <br /> :Analytical description of nonlinear waves in fluids and solids including soft biological tissues. Derivation of exact, asymptotic and numerical solutions to nonlinear nonintegrable equations. Continuum limits of discrete systems. Feedback control for nonlinear partial differential equations.<br /> <br /> == Books and collective monographs ==<br /> <br /> *A.V. Porubov Localization of nonlinear strain waves: asymptotic and numerical methods, Fizmatlit, Moscow, 2009, 208 p. in Russian.<br /> <br /> *A.V. Porubov Amplification of nonlinear strain waves in solids, World Scientific, Singapore, 2003, 213p.<br /> <br /> *A. V. Porubov, E. L. Aero and B. R. Andrievsky, Nonlinear Generalizations of the Born-Huang Model and Their Continuum Limits, In: H. Altenbach et al. (eds.), Generalized Continua as Models for Materials, Advanced Structured Materials (Springer, New York, 2013) P. 283–290.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Localized nonlinear strain waves in media with internal structure, In: Vibration Problems ICOVP 2011: the 10th International Conference on Vibration Problems, Springer Proceedings in Physics 139, J. N´aprstek et al. (eds.), (Springer, 2011) P. 687–692.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, E. L. Aero, Nonlinear Dynamic Properties in Media with Internal Structure, In: Mechanics of Generalized Continua, H. Altenbach, G.A. Maugin, V.I. Erofeyev (Eds.) (Springer, New York, 2011) P. 245–254.<br /> <br /> *A.V. Porubov,E. L. Aero and B. R. Andrievsky, Dynamic Properties of Essentially Nonlinear Generalized Continua, In: Mechanics of Generalized Continua One Hundred Years After the Cosserats, G.A. Maugin, A.V. Metrikine (Eds.) (Springer, New York, 2010) P. 161–168.<br /> <br /> *A.V. Porubov, Essentially Nonlinear Strain Waves in Solids with Complex Internal Structure. In: Mechanics of Microstructured Solids Cellular Materials, Fibre Reinforced Solids and Soft Tissues, J.-F. Ganghoffer and Franco Pastrone (Eds.)(Springer, Berlin, 2009) P. 119–126.<br /> <br /> *A.V. Porubov, Dissipative nonlinear strain waves in solids. In : ”Selected Topics in Nonlinear Wave Mechanics”, C.I. Christov and A. Guran, Editors (Birkh¯auser 2001)P.223-260.<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov and I.V. Semenova. Longitudinal strain solitons in nonlinearly elastic rod. In: Russian Science: Withstand and Revive, Collection of best popular science articles written for the contest, organized by the International Science Foundation (Nauka, Moscow 1997) P. 33-41 (in Russian)<br /> <br /> *A.V. Porubov, A.M. Samsonov, Amplification of longitudinal strain soliton in a nonlinearly elastic rod. In:”Problems of Applied Mathematics and Mathematical Physics” (St.Petersburg, Ioffe Institute, 2001) pp.212-225. in Russian<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov, I.V. Semenova and E.V. Sokurinskaya. Theory and observation of strain solitons in solids. In:Ioffe Institute Prize Winners’96(St.Petersburg 1997)P. 5-14. See also: www.ioffe.rssi.ru<br /> <br /> == Publications in Refereed Journals ==<br /> <br /> *A.V. Porubov, A.L. Fradkov, R.S. Bondarenkov and B.R. Andrievsky, Localization of the sine- Gordon equation solutions Commun. Nonlinear Sci Numer Simulat 39 (2016) 29–37. DOI: 10.1016/j.cnsns.2016.02.043<br /> <br /> *V. A. Eremeyev, A.V. Porubov, L. Placidi, Special issue in honor of Eron L. Aero, Mathematics and Mechanics of Solids, 21 (1) (2016) 3–5, DOI: 10.1177/1081286515588690<br /> <br /> *A.V. Porubov, I.E. Berinskii, Two-dimensional nonlinear shear waves in materials having hexagonal lattice structure, Mathematics and Mechanics of Solids, 21 (1) (2016) 94–103, DOI: 10.1177/1081286515577040<br /> <br /> *A.V. Porubov, I.V. Andrianov, B. Markert, Transverse instability of nonlinear longitudinal waves in hexagonal lattices, Proceedings of the Estonian Academy of Sciences , 64 , No 3S, (2015)349-355 DOI: 10.3176/proc.2015.3S.04<br /> <br /> *A.V. Porubov,A.L.Fradkov, B.R.Andrievsky, Feedback control for some solutions of the sine-Gordon equation, Applied Mathematics and Computation 269 (2015) 17–22. DOI: 10.1016/j.amc.2015.07.040<br /> <br /> *A.V. Porubov, I.E. Berinskii, Non-linear plane waves in materials having hexagonal internal structure, Int. J. Non-Linear Mech. 67 (2014) 27-33 DOI: 10.1016/ j.ijnonlinmec.2014.07.003<br /> <br /> *A.V. Porubov, Description of kink evolution by means of particular analytical solutions, Mathematics and Computers in Simulation (2014) in press DOI:<br /> 10.1016/j.matcom.2013.11.006<br /> <br /> *A.V. Porubov, Modeling of strongly nonlinear effects in diatomic lattices, Archive of Applied Mechanics 84, Issue 9 (2014), 1533–1538. DOI: 10.1007/s00419-014-0859-5<br /> <br /> *A.V. Porubov, I.V. Andrianov, Nonlinear waves in diatomic crystals, Wave Motion 50 (2013) 1153-1160. DOI information: 10.1016/j.wavemoti.2013.03.009<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Analytical solutions to detect the scheme dispersion for the coupled nonlinear equations. Commun. Nonlinear Sci Numer Simulat 18 (2013) 2679–2688.<br /> <br /> *A.V. Porubov, I.V. Andrianov, V.V. Danishevskyy, Nonlinear strain wave localization in periodic composites. International Journal of Solids and Structures 49 (2012) 3381–3387.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Kink and solitary waves may propagate together. Phys. Rev. E 85, 046604 (2012) [5 pages].<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Nonlinear dynamic variations in internal structure of a complex lattice. Nanosystems: physics, chemistry, mathematics 2 (3) (2011) P.65–70.<br /> <br /> *A.V. Porubov, G.A. Maugin, B.R. Andrievsky, Solitary wave interactions and reshaping in coupled systems, Wave Motion 48 (2011) 773-781, doi:10.1016/j.wavemoti.2011.04.012<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Influence of coupling on nonlinear waves localization.Commun. Nonlinear Sci Numer Simulat 16 (2011) 3964-3970.<br /> <br /> *A.V. Porubov, G.A. Maugin, Application of nonlinear strain waves to the study of the growth of long bones Int. J. Non-Linear Mech. 46 (2011) 387-394.<br /> <br /> *A.V. Porubov, Models for essentially nonlinear strain waves in materials with internal structure Proceedings of the Estonian Academy of Sciences 59 , No 2 (2010) 87 – 92.<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Compensation of the Scheme Dispersion and Dissipation by Artificial Non-linear Additions Trans. on Comput. Sci. VII, LNCS 5890, (2010) 122-131<br /> <br /> *A.V. Porubov, Model equations for essentially nonlinear longitudinal strain waves Nonlinear world, 7, No 10 (2009) 796-801. [in Russian]<br /> <br /> *A.V. Porubov, E.L. Aero, G.A. Maugin, Two approaches to study essentially nonlinear and dispersive properties of the internal structure of materials, Phys. Rev. E, 79, 046608 (2009) [12 pages]<br /> <br /> *A.V. Porubov, G.A. Maugin, Cubic non-linearity and longitudinal surface solitary waves, Int. J. Non-Linear Mech., 44 (2009) 552-559 , doi: 10.1016/j.ijnonlinmec. 2008.09.003<br /> <br /> == Reviewer ==<br /> <br /> :Physics Letters A, Wave Motion, Physica Scripta, Physica Status Solidi, Technical Physics Letters, Journal of Applied Physics, Journal of Physics and Chemistry of Solids, Ocean Engineering, International Journal of Non-linear Mechanics, Communications in Nonlinear Science and Numerical Simulation, Proceedings of the Estonian Academy of Sciences, Physica D, Journal of Acoustic Society of America, Journal of Sound and Vibrations, ZAMM, Chaos, Applied Mathematical Modeling, International Journal of Engineering Science, Journal of Mathematical Analysis and Applications, Continuum Mechanics and Thermodynamics, Mathematics and Computers in Simulation, Proceedings of the Royal Society A</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Alexey_Porubov&diff=7874 Alexey Porubov 2016-06-01T14:56:29Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Alexey V. Porubov &lt;/font&gt;<br /> <br /> [[File:Porubov.jpg|right|200px]]<br /> <br /> == Education ==<br /> <br /> * M.S. in Mechanics of fluid and gas, Leningrad Polytechnical Institute, 1987<br /> Thesis: &quot;Nonlinear Boussinesq equation wave solutions on inviscid liquid layer surface&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Ph.D. in Mechanics of fluid, gas and plasma, St.Petersburg Technical University, 1996<br /> Thesis: &quot;Nonlinear waves on thin viscous inhomogeneous liquid layer&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Doctor of Sciences in Mechanics of deformable solids, Institute for Problems in Mechanical Engineering RAS, 2007<br /> Thesis: &quot;Generation of strain solitary waves in nonlinear solids&quot;<br /> <br /> == Current Research Interests ==<br /> <br /> :Analytical description of nonlinear waves in fluids and solids including soft biological tissues. Derivation of exact, asymptotic and numerical solutions to nonlinear nonintegrable equations. Continuum limits of discrete systems. Feedback control for nonlinear partial differential equations.<br /> <br /> == Books and collective monographs ==<br /> <br /> *A.V. Porubov Localization of nonlinear strain waves: asymptotic and numerical methods, Fizmatlit, Moscow, 2009, 208 p. in Russian.<br /> <br /> *A.V. Porubov Amplification of nonlinear strain waves in solids, World Scientific, Singapore, 2003, 213p.<br /> <br /> *A. V. Porubov, E. L. Aero and B. R. Andrievsky, Nonlinear Generalizations of the Born-Huang Model and Their Continuum Limits, In: H. Altenbach et al. (eds.), Generalized Continua as Models for Materials, Advanced Structured Materials (Springer, New York, 2013) P. 283–290.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Localized nonlinear strain waves in media with internal structure, In: Vibration Problems ICOVP 2011: the 10th International Conference on Vibration Problems, Springer Proceedings in Physics 139, J. N´aprstek et al. (eds.), (Springer, 2011) P. 687–692.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, E. L. Aero, Nonlinear Dynamic Properties in Media with Internal Structure, In: Mechanics of Generalized Continua, H. Altenbach, G.A. Maugin, V.I. Erofeyev (Eds.) (Springer, New York, 2011) P. 245–254.<br /> <br /> *A.V. Porubov,E. L. Aero and B. R. Andrievsky, Dynamic Properties of Essentially Nonlinear Generalized Continua, In: Mechanics of Generalized Continua One Hundred Years After the Cosserats, G.A. Maugin, A.V. Metrikine (Eds.) (Springer, New York, 2010) P. 161–168.<br /> <br /> *A.V. Porubov, Essentially Nonlinear Strain Waves in Solids with Complex Internal Structure. In: Mechanics of Microstructured Solids Cellular Materials, Fibre Reinforced Solids and Soft Tissues, J.-F. Ganghoffer and Franco Pastrone (Eds.)(Springer, Berlin, 2009) P. 119–126.<br /> <br /> *A.V. Porubov, Dissipative nonlinear strain waves in solids. In : ”Selected Topics in Nonlinear Wave Mechanics”, C.I. Christov and A. Guran, Editors (Birkh¯auser 2001)P.223-260.<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov and I.V. Semenova. Longitudinal strain solitons in nonlinearly elastic rod. In: Russian Science: Withstand and Revive, Collection of best popular science articles written for the contest, organized by the International Science Foundation (Nauka, Moscow 1997) P. 33-41 (in Russian)<br /> <br /> *A.V. Porubov, A.M. Samsonov, Amplification of longitudinal strain soliton in a nonlinearly elastic rod. In:”Problems of Applied Mathematics and Mathematical Physics” (St.Petersburg, Ioffe Institute, 2001) pp.212-225. in Russian<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov, I.V. Semenova and E.V. Sokurinskaya. Theory and observation of strain solitons in solids. In:Ioffe Institute Prize Winners’96(St.Petersburg 1997)P. 5-14. See also: www.ioffe.rssi.ru<br /> <br /> == Publications in Refereed Journals ==<br /> <br /> *A.V. Porubov, A.L. Fradkov, R.S. Bondarenkov and B.R. Andrievsky, Localization of the sine- Gordon equation solutions Commun. Nonlinear Sci Numer Simulat 39 (2016) 29–37. DOI: 10.1016/j.cnsns.2016.02.043<br /> <br /> *V. A. Eremeyev, A.V. Porubov, L. Placidi, Special issue in honor of Eron L. Aero, Mathematics and Mechanics of Solids, 21 (1) (2016) 3–5, DOI: 10.1177/1081286515588690<br /> <br /> *A.V. Porubov, I.E. Berinskii, Two-dimensional nonlinear shear waves in materials having hexagonal lattice structure, Mathematics and Mechanics of Solids, 21 (1) (2016) 94–103, DOI: 10.1177/1081286515577040<br /> <br /> *A.V. Porubov, I.V. Andrianov, B. Markert, Transverse instability of nonlinear longitudinal waves in hexagonal lattices, Proceedings of the Estonian Academy of Sciences , 64 , No 3S, (2015)349-355 DOI: 10.3176/proc.2015.3S.04<br /> <br /> *A.V. Porubov,A.L.Fradkov, B.R.Andrievsky, Feedback control for some solutions of the sine-Gordon equation, Applied Mathematics and Computation 269 (2015) 17–22. DOI: 10.1016/j.amc.2015.07.040<br /> <br /> *A.V. Porubov, I.E. Berinskii, Non-linear plane waves in materials having hexagonal internal structure, Int. J. Non-Linear Mech. 67 (2014) 27-33 DOI: 10.1016/ j.ijnonlinmec.2014.07.003<br /> <br /> *A.V. Porubov, Description of kink evolution by means of particular analytical solutions, Mathematics and Computers in Simulation (2014) in press DOI:<br /> 10.1016/j.matcom.2013.11.006<br /> <br /> *A.V. Porubov, Modeling of strongly nonlinear effects in diatomic lattices, Archive of Applied Mechanics 84, Issue 9 (2014), 1533–1538. DOI: 10.1007/s00419-014-0859-5<br /> <br /> *A.V. Porubov, I.V. Andrianov, Nonlinear waves in diatomic crystals, Wave Motion 50 (2013) 1153-1160. DOI information: 10.1016/j.wavemoti.2013.03.009<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Analytical solutions to detect the scheme dispersion for the coupled nonlinear equations. Commun. Nonlinear Sci Numer Simulat 18 (2013) 2679–2688.<br /> <br /> *A.V. Porubov, I.V. Andrianov, V.V. Danishevskyy, Nonlinear strain wave localization in periodic composites. International Journal of Solids and Structures 49 (2012) 3381–3387.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Kink and solitary waves may propagate together. Phys. Rev. E 85, 046604 (2012) [5 pages].<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Nonlinear dynamic variations in internal structure of a complex lattice. Nanosystems: physics, chemistry, mathematics 2 (3) (2011) P.65–70.<br /> <br /> *A.V. Porubov, G.A. Maugin, B.R. Andrievsky, Solitary wave interactions and reshaping in coupled systems, Wave Motion 48 (2011) 773-781, doi:10.1016/j.wavemoti.2011.04.012<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Influence of coupling on nonlinear waves localization.Commun. Nonlinear Sci Numer Simulat 16 (2011) 3964-3970.<br /> <br /> *A.V. Porubov, G.A. Maugin, Application of nonlinear strain waves to the study of the growth of long bones Int. J. Non-Linear Mech. 46 (2011) 387-394.<br /> <br /> *A.V. Porubov, Models for essentially nonlinear strain waves in materials with internal structure Proceedings of the Estonian Academy of Sciences 59 , No 2 (2010) 87 – 92.<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Compensation of the Scheme Dispersion and Dissipation by Artificial Non-linear Additions Trans. on Comput. Sci. VII, LNCS 5890, (2010) 122-131<br /> <br /> *A.V. Porubov, Model equations for essentially nonlinear longitudinal strain waves Nonlinear world, 7, No 10 (2009) 796-801. [in Russian]<br /> <br /> *A.V. Porubov, E.L. Aero, G.A. Maugin, Two approaches to study essentially nonlinear and dispersive properties of the internal structure of materials, Phys. Rev. E, 79, 046608 (2009) [12 pages]<br /> <br /> *A.V. Porubov, G.A. Maugin, Cubic non-linearity and longitudinal surface solitary waves, Int. J. Non-Linear Mech., 44 (2009) 552-559 , doi: 10.1016/j.ijnonlinmec. 2008.09.003<br /> <br /> == Reviewer ==<br /> <br /> :Physics Letters A, Wave Motion, Physica Scripta, Physica Status Solidi, Technical Physics Letters, Journal of Applied Physics, Journal of Physics and Chemistry of Solids, Ocean Engineering, International Journal of Non-linear Mechanics, Communications in Nonlinear Science and Numerical Simulation, Proceedings of the Estonian Academy of Sciences, Physica D, Journal of Acoustic Society of America, Journal of Sound and Vibrations, ZAMM, Chaos, Applied Mathematical Modeling, International Journal of Engineering Science, Journal of Mathematical Analysis and Applications, Continuum Mechanics and Thermodynamics, Mathematics and Computers in Simulation, Proceedings of the Royal Society A</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Alexey_Porubov&diff=7873 Alexey Porubov 2016-06-01T14:54:59Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Alexey V. Porubov &lt;/font&gt;<br /> <br /> [[File:Porubov.jpg|right|200px]]<br /> <br /> == Education ==<br /> <br /> * M.S. in Mechanics of fluid and gas, Leningrad Polytechnical Institute, 1987<br /> Thesis: &quot;Nonlinear Boussinesq equation wave solutions on inviscid liquid layer surface&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Ph.D. in Mechanics of fluid, gas and plasma, St.Petersburg Technical University, 1996<br /> Thesis: &quot;Nonlinear waves on thin viscous inhomogeneous liquid layer&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Doctor of Sciences in Mechanics of deformable solids, Institute for Problems in Mechanical Engineering RAS, 2007<br /> Thesis: &quot;Generation of strain solitary waves in nonlinear solids&quot;<br /> <br /> == Current Research Interests ==<br /> <br /> :Analytical description of nonlinear waves in fluids and solids including soft biological tissues. Derivation of exact, asymptotic and numerical solutions to nonlinear nonintegrable equations. Continuum limits of discrete systems. Feedback control for nonlinear partial differential equations.<br /> <br /> == Books and collective monographs ==<br /> <br /> *A.V. Porubov Localization of nonlinear strain waves: asymptotic and numerical methods, Fizmatlit, Moscow, 2009, 208 p. in Russian.<br /> <br /> *A.V. Porubov Amplification of nonlinear strain waves in solids, World Scientific, Singapore, 2003, 213p.<br /> <br /> *A. V. Porubov, E. L. Aero and B. R. Andrievsky, Nonlinear Generalizations of the Born-Huang Model and Their Continuum Limits, In: H. Altenbach et al. (eds.), Generalized Continua as Models for Materials, Advanced Structured Materials (Springer, New York, 2013) P. 283–290.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Localized nonlinear strain waves in media with internal structure, In: Vibration Problems ICOVP 2011: the 10th International Conference on Vibration Problems, Springer Proceedings in Physics 139, J. N´aprstek et al. (eds.), (Springer, 2011) P. 687–692.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, E. L. Aero, Nonlinear Dynamic Properties in Media with Internal Structure, In: Mechanics of Generalized Continua, H. Altenbach, G.A. Maugin, V.I. Erofeyev (Eds.) (Springer, New York, 2011) P. 245–254.<br /> <br /> *A.V. Porubov,E. L. Aero and B. R. Andrievsky, Dynamic Properties of Essentially Nonlinear Generalized Continua, In: Mechanics of Generalized Continua One Hundred Years After the Cosserats, G.A. Maugin, A.V. Metrikine (Eds.) (Springer, New York, 2010) P. 161–168.<br /> <br /> *A.V. Porubov, Essentially Nonlinear Strain Waves in Solids with Complex Internal Structure. In: Mechanics of Microstructured Solids Cellular Materials, Fibre Reinforced Solids and Soft Tissues, J.-F. Ganghoffer and Franco Pastrone (Eds.)(Springer, Berlin, 2009) P. 119–126.<br /> <br /> *A.V. Porubov, Dissipative nonlinear strain waves in solids. In : ”Selected Topics in Nonlinear Wave Mechanics”, C.I. Christov and A. Guran, Editors (Birkh¯auser 2001)P.223-260.<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov and I.V. Semenova. Longitudinal strain solitons in nonlinearly elastic rod. In: Russian Science: Withstand and Revive, Collection of best popular science articles written for the contest, organized by the International Science Foundation (Nauka, Moscow 1997) P. 33-41 (in Russian)<br /> <br /> *A.V. Porubov, A.M. Samsonov, Amplification of longitudinal strain soliton in a nonlinearly elastic rod. In:”Problems of Applied Mathematics and Mathematical Physics” (St.Petersburg, Ioffe Institute, 2001) pp.212-225. in Russian<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov, I.V. Semenova and E.V. Sokurinskaya. Theory and observation of strain solitons in solids. In:Ioffe Institute Prize Winners’96(St.Petersburg 1997)P. 5-14. See also: www.ioffe.rssi.ru<br /> <br /> == Publications in Refereed Journals ==<br /> <br /> *A.V. Porubov, A.L. Fradkov, R.S. Bondarenkov and B.R. Andrievsky, Localization of the sine- Gordon equation solutions Commun. Nonlinear Sci Numer Simulat 39 (2016) 29–37. DOI: 10.1016/j.cnsns.2016.02.043<br /> <br /> *V. A. Eremeyev, A.V. Porubov, L. Placidi, Special issue in honor of Eron L. Aero, Mathematics and Mechanics of Solids, 21 (1) (2016) 3–5, DOI: 10.1177/1081286515588690<br /> <br /> *A.V. Porubov, I.E. Berinskii, Two-dimensional nonlinear shear waves in materials having hexagonal lattice structure, Mathematics and Mechanics of Solids, 21 (1) (2016) 94–103, DOI: 10.1177/1081286515577040<br /> <br /> *A.V. Porubov, I.V. Andrianov, B. Markert, Transverse instability of nonlinear longitudinal waves in hexagonal lattices, Proceedings of the Estonian Academy of Sciences , 64 , No 3S, (2015)349-355 DOI: 10.3176/proc.2015.3S.04<br /> <br /> *A.V. Porubov,A.L.Fradkov, B.R.Andrievsky, Feedback control for some solutions of the sine-Gordon equation, Applied Mathematics and Computation 269 (2015) 17–22. DOI: 10.1016/j.amc.2015.07.040<br /> <br /> *A.V. Porubov, I.E. Berinskii, Non-linear plane waves in materials having hexagonal internal structure, Int. J. Non-Linear Mech. 67 (2014) 27-33 DOI: 10.1016/ j.ijnonlinmec.2014.07.003<br /> <br /> *A.V. Porubov, Description of kink evolution by means of particular analytical solutions, Mathematics and Computers in Simulation (2014) in press DOI:<br /> 10.1016/j.matcom.2013.11.006<br /> <br /> *A.V. Porubov, Modeling of strongly nonlinear effects in diatomic lattices, Archive of Applied Mechanics 84, Issue 9 (2014), 1533–1538. DOI: 10.1007/s00419-014-0859-5<br /> <br /> *A.V. Porubov, I.V. Andrianov, Nonlinear waves in diatomic crystals, Wave Motion 50 (2013) 1153-1160. DOI information: 10.1016/j.wavemoti.2013.03.009<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Analytical solutions to detect the scheme dispersion for the coupled nonlinear equations. Commun. Nonlinear Sci Numer Simulat 18 (2013) 2679–2688.<br /> <br /> *A.V. Porubov, I.V. Andrianov, V.V. Danishevskyy, Nonlinear strain wave localization in periodic composites. International Journal of Solids and Structures 49 (2012) 3381–3387.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Kink and solitary waves may propagate together. Phys. Rev. E 85, 046604 (2012) [5 pages].<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Nonlinear dynamic variations in internal structure of a complex lattice. Nanosystems: physics, chemistry, mathematics 2 (3) (2011) P.65–70.<br /> <br /> *A.V. Porubov, G.A. Maugin, B.R. Andrievsky, Solitary wave interactions and reshaping in coupled systems, Wave Motion 48 (2011) 773-781, doi:10.1016/j.wavemoti.2011.04.012<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Influence of coupling on nonlinear waves localization.Commun. Nonlinear Sci Numer Simulat 16 (2011) 3964-3970.<br /> <br /> *A.V. Porubov, G.A. Maugin, Application of nonlinear strain waves to the study of the growth of long bones Int. J. Non-Linear Mech. 46 (2011) 387-394.<br /> <br /> *A.V. Porubov, Models for essentially nonlinear strain waves in materials with internal structure Proceedings of the Estonian Academy of Sciences 59 , No 2 (2010) 87 – 92.<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Compensation of the Scheme Dispersion and Dissipation by Artificial Non-linear Additions Trans. on Comput. Sci. VII, LNCS 5890, (2010) 122-131<br /> <br /> *A.V. Porubov, Model equations for essentially nonlinear longitudinal strain waves Nonlinear world, 7, No 10 (2009) 796-801. [in Russian]<br /> <br /> *A.V. Porubov, E.L. Aero, G.A. Maugin, Two approaches to study essentially nonlinear and dispersive properties of the internal structure of materials, Phys. Rev. E, 79, 046608 (2009) [12 pages]<br /> <br /> *A.V. Porubov, G.A. Maugin, Cubic non-linearity and longitudinal surface solitary waves, Int. J. Non-Linear Mech., 44 (2009) 552-559 , doi: 10.1016/j.ijnonlinmec. 2008.09.003</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Alexey_Porubov&diff=7872 Alexey Porubov 2016-06-01T14:49:37Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Alexey V. Porubov &lt;/font&gt;<br /> <br /> [[File:Porubov.jpg|right|200px]]<br /> <br /> == Education ==<br /> <br /> * M.S. in Mechanics of fluid and gas, Leningrad Polytechnical Institute, 1987<br /> Thesis: &quot;Nonlinear Boussinesq equation wave solutions on inviscid liquid layer surface&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Ph.D. in Mechanics of fluid, gas and plasma, St.Petersburg Technical University, 1996<br /> Thesis: &quot;Nonlinear waves on thin viscous inhomogeneous liquid layer&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Doctor of Sciences in Mechanics of deformable solids, Institute for Problems in Mechanical Engineering RAS, 2007<br /> Thesis: &quot;Generation of strain solitary waves in nonlinear solids&quot;<br /> <br /> == Books and collective monographs ==<br /> <br /> *A.V. Porubov Localization of nonlinear strain waves: asymptotic and numerical methods, Fizmatlit, Moscow, 2009, 208 p. in Russian.<br /> <br /> *A.V. Porubov Amplification of nonlinear strain waves in solids, World Scientific, Singapore, 2003, 213p.<br /> <br /> *A. V. Porubov, E. L. Aero and B. R. Andrievsky, Nonlinear Generalizations of the Born-Huang Model and Their Continuum Limits, In: H. Altenbach et al. (eds.), Generalized Continua as Models for Materials, Advanced Structured Materials (Springer, New York, 2013) P. 283–290.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Localized nonlinear strain waves in media with internal structure, In: Vibration Problems ICOVP 2011: the 10th International Conference on Vibration Problems, Springer Proceedings in Physics 139, J. N´aprstek et al. (eds.), (Springer, 2011) P. 687–692.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, E. L. Aero, Nonlinear Dynamic Properties in Media with Internal Structure, In: Mechanics of Generalized Continua, H. Altenbach, G.A. Maugin, V.I. Erofeyev (Eds.) (Springer, New York, 2011) P. 245–254.<br /> <br /> *A.V. Porubov,E. L. Aero and B. R. Andrievsky, Dynamic Properties of Essentially Nonlinear Generalized Continua, In: Mechanics of Generalized Continua One Hundred Years After the Cosserats, G.A. Maugin, A.V. Metrikine (Eds.) (Springer, New York, 2010) P. 161–168.<br /> <br /> *A.V. Porubov, Essentially Nonlinear Strain Waves in Solids with Complex Internal Structure. In: Mechanics of Microstructured Solids Cellular Materials, Fibre Reinforced Solids and Soft Tissues, J.-F. Ganghoffer and Franco Pastrone (Eds.)(Springer, Berlin, 2009) P. 119–126.<br /> <br /> *A.V. Porubov, Dissipative nonlinear strain waves in solids. In : ”Selected Topics in Nonlinear Wave Mechanics”, C.I. Christov and A. Guran, Editors (Birkh¯auser 2001)P.223-260.<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov and I.V. Semenova. Longitudinal strain solitons in nonlinearly elastic rod. In: Russian Science: Withstand and Revive, Collection of best popular science articles written for the contest, organized by the International Science Foundation (Nauka, Moscow 1997) P. 33-41 (in Russian)<br /> <br /> *A.V. Porubov, A.M. Samsonov, Amplification of longitudinal strain soliton in a nonlinearly elastic rod. In:”Problems of Applied Mathematics and Mathematical Physics” (St.Petersburg, Ioffe Institute, 2001) pp.212-225. in Russian<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov, I.V. Semenova and E.V. Sokurinskaya. Theory and observation of strain solitons in solids. In:Ioffe Institute Prize Winners’96(St.Petersburg 1997)P. 5-14. See also: www.ioffe.rssi.ru<br /> <br /> == Publications in Refereed Journals ==<br /> <br /> *A.V. Porubov, A.L. Fradkov, R.S. Bondarenkov and B.R. Andrievsky, Localization of the sine- Gordon equation solutions Commun. Nonlinear Sci Numer Simulat 39 (2016) 29–37. DOI: 10.1016/j.cnsns.2016.02.043<br /> <br /> *V. A. Eremeyev, A.V. Porubov, L. Placidi, Special issue in honor of Eron L. Aero, Mathematics and Mechanics of Solids, 21 (1) (2016) 3–5, DOI: 10.1177/1081286515588690<br /> <br /> *A.V. Porubov, I.E. Berinskii, Two-dimensional nonlinear shear waves in materials having hexagonal lattice structure, Mathematics and Mechanics of Solids, 21 (1) (2016) 94–103, DOI: 10.1177/1081286515577040<br /> <br /> *A.V. Porubov, I.V. Andrianov, B. Markert, Transverse instability of nonlinear longitudinal waves in hexagonal lattices, Proceedings of the Estonian Academy of Sciences , 64 , No 3S, (2015)349-355 DOI: 10.3176/proc.2015.3S.04<br /> <br /> *A.V. Porubov,A.L.Fradkov, B.R.Andrievsky, Feedback control for some solutions of the sine-Gordon equation, Applied Mathematics and Computation 269 (2015) 17–22. DOI: 10.1016/j.amc.2015.07.040<br /> <br /> *A.V. Porubov, I.E. Berinskii, Non-linear plane waves in materials having hexagonal internal structure, Int. J. Non-Linear Mech. 67 (2014) 27-33 DOI: 10.1016/ j.ijnonlinmec.2014.07.003<br /> <br /> *A.V. Porubov, Description of kink evolution by means of particular analytical solutions, Mathematics and Computers in Simulation (2014) in press DOI:<br /> 10.1016/j.matcom.2013.11.006<br /> <br /> *A.V. Porubov, Modeling of strongly nonlinear effects in diatomic lattices, Archive of Applied Mechanics 84, Issue 9 (2014), 1533–1538. DOI: 10.1007/s00419-014-0859-5<br /> <br /> *A.V. Porubov, I.V. Andrianov, Nonlinear waves in diatomic crystals, Wave Motion 50 (2013) 1153-1160. DOI information: 10.1016/j.wavemoti.2013.03.009<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Analytical solutions to detect the scheme dispersion for the coupled nonlinear equations. Commun. Nonlinear Sci Numer Simulat 18 (2013) 2679–2688.<br /> <br /> *A.V. Porubov, I.V. Andrianov, V.V. Danishevskyy, Nonlinear strain wave localization in periodic composites. International Journal of Solids and Structures 49 (2012) 3381–3387.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Kink and solitary waves may propagate together. Phys. Rev. E 85, 046604 (2012) [5 pages].<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Nonlinear dynamic variations in internal structure of a complex lattice. Nanosystems: physics, chemistry, mathematics 2 (3) (2011) P.65–70.<br /> <br /> *A.V. Porubov, G.A. Maugin, B.R. Andrievsky, Solitary wave interactions and reshaping in coupled systems, Wave Motion 48 (2011) 773-781, doi:10.1016/j.wavemoti.2011.04.012<br /> <br /> *A.V. Porubov, B.R. Andrievsky, Influence of coupling on nonlinear waves localization.Commun. Nonlinear Sci Numer Simulat 16 (2011) 3964-3970.<br /> <br /> *A.V. Porubov, G.A. Maugin, Application of nonlinear strain waves to the study of the growth of long bones Int. J. Non-Linear Mech. 46 (2011) 387-394.<br /> <br /> *A.V. Porubov, Models for essentially nonlinear strain waves in materials with internal structure Proceedings of the Estonian Academy of Sciences 59 , No 2 (2010) 87 – 92.<br /> <br /> *A.V. Porubov, D. Bouche, G. Bonnaud, Compensation of the Scheme Dispersion and Dissipation by Artificial Non-linear Additions Trans. on Comput. Sci. VII, LNCS 5890, (2010) 122-131<br /> <br /> *A.V. Porubov, Model equations for essentially nonlinear longitudinal strain waves Nonlinear world, 7, No 10 (2009) 796-801. [in Russian]<br /> <br /> *A.V. Porubov, E.L. Aero, G.A. Maugin, Two approaches to study essentially nonlinear and dispersive properties of the internal structure of materials, Phys. Rev. E, 79, 046608 (2009) [12 pages]<br /> <br /> *A.V. Porubov, G.A. Maugin, Cubic non-linearity and longitudinal surface solitary waves, Int. J. Non-Linear Mech., 44 (2009) 552-559 , doi: 10.1016/j.ijnonlinmec. 2008.09.003</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Alexey_Porubov&diff=7871 Alexey Porubov 2016-06-01T14:40:52Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Alexey V. Porubov &lt;/font&gt;<br /> <br /> [[File:Porubov.jpg|right|200px]]<br /> <br /> == Education ==<br /> <br /> * M.S. in Mechanics of fluid and gas, Leningrad Polytechnical Institute, 1987<br /> Thesis: &quot;Nonlinear Boussinesq equation wave solutions on inviscid liquid layer surface&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Ph.D. in Mechanics of fluid, gas and plasma, St.Petersburg Technical University, 1996<br /> Thesis: &quot;Nonlinear waves on thin viscous inhomogeneous liquid layer&quot;<br /> (with Prof. A. M.Samsonov)<br /> <br /> * Doctor of Sciences in Mechanics of deformable solids, Institute for Problems in Mechanical Engineering RAS, 2007<br /> Thesis: &quot;Generation of strain solitary waves in nonlinear solids&quot;<br /> <br /> == Books and collective monographs ==<br /> <br /> *A.V. Porubov Localization of nonlinear strain waves: asymptotic and numerical methods, Fizmatlit, Moscow, 2009, 208 p. in Russian.<br /> <br /> *A.V. Porubov Amplification of nonlinear strain waves in solids, World Scientific, Singapore, 2003, 213p.<br /> <br /> *A. V. Porubov, E. L. Aero and B. R. Andrievsky, Nonlinear Generalizations of the Born-Huang Model and Their Continuum Limits, In: H. Altenbach et al. (eds.), Generalized Continua as Models for Materials, Advanced Structured Materials (Springer, New York, 2013) P. 283–290.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, Localized nonlinear strain waves in media with internal structure, In: Vibration Problems ICOVP 2011: the 10th International Conference on Vibration Problems, Springer Proceedings in Physics 139, J. N´aprstek et al. (eds.), (Springer, 2011) P. 687–692.<br /> <br /> *A.V. Porubov, B. R. Andrievsky, E. L. Aero, Nonlinear Dynamic Properties in Media with Internal Structure, In: Mechanics of Generalized Continua, H. Altenbach, G.A. Maugin, V.I. Erofeyev (Eds.) (Springer, New York, 2011) P. 245–254.<br /> <br /> *A.V. Porubov,E. L. Aero and B. R. Andrievsky, Dynamic Properties of Essentially Nonlinear Generalized Continua, In: Mechanics of Generalized Continua One Hundred Years After the Cosserats, G.A. Maugin, A.V. Metrikine (Eds.) (Springer, New York, 2010) P. 161–168.<br /> <br /> *A.V. Porubov, Essentially Nonlinear Strain Waves in Solids with Complex Internal Structure. In: Mechanics of Microstructured Solids Cellular Materials, Fibre Reinforced Solids and Soft Tissues, J.-F. Ganghoffer and Franco Pastrone (Eds.)(Springer, Berlin, 2009) P. 119–126.<br /> <br /> *A.V. Porubov, Dissipative nonlinear strain waves in solids. In : ”Selected Topics in Nonlinear Wave Mechanics”, C.I. Christov and A. Guran, Editors (Birkh¯auser 2001)P.223-260.<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov and I.V. Semenova. Longitudinal strain solitons in nonlinearly elastic rod. In: Russian Science: Withstand and Revive, Collection of best popular science articles written for the contest, organized by the International Science Foundation (Nauka, Moscow 1997) P. 33-41 (in Russian)<br /> <br /> *A.V. Porubov, A.M. Samsonov, Amplification of longitudinal strain soliton in a nonlinearly elastic rod. In:”Problems of Applied Mathematics and Mathematical Physics” (St.Petersburg, Ioffe Institute, 2001) pp.212-225. in Russian<br /> <br /> *A.M. Samsonov, G.V. Dreiden, A.V. Porubov, I.V. Semenova and E.V. Sokurinskaya. Theory and observation of strain solitons in solids. In:Ioffe Institute Prize Winners’96(St.Petersburg 1997)P. 5-14. See also: www.ioffe.rssi.ru</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Berinskii_Igor&diff=7870 Berinskii Igor 2016-06-01T14:32:10Z <p>Кошелева Ксения Александровна: /* Scientific Projects */</p> <hr /> <div>[[ru:Беринский Игорь]]<br /> <br /> {{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt;Igor Berinskii&lt;/font&gt;<br /> <br /> <br /> {| style=&quot;color:black;background-color:#e0e0e0;&quot; cellpadding=&quot;15&quot; cellspacing=&quot;2&quot; border = &quot;1&quot;C<br /> |[[File:IgorB.jpg|200px]]<br /> |<br /> ;Senior lecturer, Department of [[Main Page | Theoretical and Applied Mechanics]] <br /> <br /> :[http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics] ([http://www.physmech.ru/ former Faculty of Physics and Mechanics]) <br /> <br /> :[http://english.spbstu.ru/ Peter the Great St.Petersburg Polytechnic University] (SPbPU). <br /> <br /> |__TOC__<br /> |}<br /> <br /> == Education ==<br /> [[File:IPME_SPbSPU.png|330px|thumb|right|]]<br /> * '''Postdoc''', [http://www.engin.cf.ac.uk/research/resSubGrp.asp?InstNo=13&amp;GrpNo=13 Tribology and Contact Mechanics Research Group], Cardiff University, 2012<br /> * '''Ph.D.''', [http://www.ipme.ru/ IPME RAS], 2010.<br /> Supervisor: Prof. [[Антон_Кривцов | A.M. Krivtsov]]<br /> * '''Master''', [http://english.spbstu.ru/ SPbSPU], [http://www.physmech.ru/ PhysMech Faculty], Department of [http://www.physmech.ru/modules.php?name=Pages&amp;pa=showpage&amp;pid=5 Mechanics and Control Processes], 2007 (cum laude) <br /> Supervisor: Prof. [[Антон_Кривцов | A.M. Krivtsov]]<br /> * '''Bachelor''', [http://english.spbstu.ru/ SPbSPU], [http://www.physmech.ru/ PhysMech Faculty], Department of [http://www.physmech.ru/modules.php?name=Pages&amp;pa=showpage&amp;pid=5 Mechanics and Control Processes], 2005 (cum laude)<br /> Supervisor: Prof. [[Антон_Кривцов | A.M. Krivtsov]]<br /> <br /> == Research Interests ==<br /> [[File:Ber_Sci.png|600px|thumb|right|]]<br /> * Nanomechanics<br /> * NEMS and MEMS<br /> * Discrete models in mechanics<br /> * Mechanics of media with microstructure<br /> * Dynamical fracture of materials<br /> <br /> == Publications ==<br /> [[:ru:Igor Berinskii:_Selected_Publications | '''Selected Publications''']].<br /> <br /> == Scientific Projects ==<br /> * [[:ru:Абердинский проект|Abeerdeen Project]]<br /> * [[&quot;Crystal&quot; | Project &quot;Crystal&quot;]]<br /> <br /> == Teaching interests ==<br /> * Introduction to Nanomechanics<br /> * Engineering Mechanics<br /> <br /> == Links ==<br /> * [http://www.ipme.ru/ipme/labs/msm/MD_RG/Members/Berinskiy_eng.htm I.E. Berinskii:]personal page at IPME RAS<br /> * Department of [[Main Page | Theoretical and Applied Mechanics]], SPbPU<br /> * [http://www.ipme.ru/ IPME RAS]<br /> <br /> == Contacts ==<br /> '''E-mail:''' iberinsk at gmail.com <br /> <br /> '''Work. tel:''' +7(812) 321 0656, +7(812) 290 9872 <br /> <br /> '''Address:''' 195251, Russia, St. Petersburg, Politechnicheskaya., 29, Dep. &quot;Theoretical Mechanics&quot;.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=O.S._Loboda&diff=7869 O.S. Loboda 2016-06-01T14:31:41Z <p>Кошелева Ксения Александровна: /* Participation in projects */</p> <hr /> <div>[[ru:Лобода Ольга]]<br /> <br /> <br /> {| style=&quot;color:black;background-color:#e0e0e0;&quot; cellpadding=&quot;15&quot; cellspacing=&quot;2&quot; border = &quot;1&quot;C<br /> |[[File:Loboda_main.jpg|150px]]<br /> |<br /> ; Deputy Head of Department of [[Main Page | Theoretical and Applied Mechanics]] <br /> ; for academic affairs<br /> <br /> :[http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics] ([http://www.physmech.ru/ former Faculty of Physics and Mechanics]) <br /> <br /> :[http://english.spbstu.ru/ Peter the Great St.Petersburg Polytechnic University] (SPbPU). <br /> <br /> ;Senior researcher <br /> <br /> ;:[[:ru:&quot;Дискретные модели механики&quot; | Laboratory for Discrete Models in Mechanics]] (DMML)<br /> <br /> :[http://www.ipme.ru/indexr.html Institute for Problems in Mechanical Engineering] [http://www.ras.ru Russian Academy of Sciences] (IPME RAS).<br /> |__TOC__<br /> |}<br /> <br /> == Education ==<br /> <br /> * Engineer [http://www.spbstu.ru/ Saint Petersburg state polytechnical university], Russia, 2000 <br /> * PhD [http://www.spbstu.ru/ Saint Petersburg state polytechnical university], Russia, 2007<br /> <br /> == Research areas/interests ==<br /> <br /> *Mechanics of Discrete Media<br /> *Rheology of suspensions<br /> *Photo registration<br /> <br /> == Participation in projects ==<br /> * [[:ru:Aberdeen project|Aberdeen project]]<br /> * [[&quot;Crystal&quot; | Project &quot;Crystal&quot;]]<br /> <br /> == Teaching ==<br /> * Theoretical mechanics<br /> * Oscillation theory<br /> * Description of crystal structures<br /> <br /> == [[:ru:О.С. Лобода: Избранные публикации|Selected publications]] ==<br /> <br /> <br /> == Contacts ==<br /> E-mail: loboda_o&lt;math&gt;@&lt;/math&gt;mail.ru <br /> <br /> Phone: +7-921-7926958 <br /> <br /> Fax: +7-812-3214771 <br /> <br /> Mail: Institute for Problems in Mechanical Engineering RAS, 199178, Russia, St. Petersburg, Bolshoy pr. V.O., 61</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Panchenko_Artem&diff=7868 Panchenko Artem 2016-06-01T14:31:02Z <p>Кошелева Ксения Александровна: /* Participation in projects */</p> <hr /> <div>[[ru:Панченко Артём]]<br /> <br /> {{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Artem Yu. Panchenko&lt;/font&gt;<br /> <br /> {| style=&quot;color:black;background-color:#e0e0e0;&quot; cellpadding=&quot;15&quot; cellspacing=&quot;2&quot; border = &quot;1&quot;C<br /> |[[File:Face_A.JPG|150px]]<br /> |<br /> ; Assistant <br /> <br /> ;: Department of [[Main Page | Theoretical and Applied Mechanics]] <br /> <br /> :[http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics] ([http://www.physmech.ru/ former Faculty of Physics and Mechanics]) <br /> <br /> :[http://english.spbstu.ru/ Peter the Great St.Petersburg Polytechnic University] (SPbPU). <br /> <br /> ;Trainee researcher<br /> <br /> ;:[[:ru:&quot;Дискретные модели механики&quot;|Laboratory for Discrete Models in Mechanics]] (DMML)<br /> <br /> :[http://www.ipme.ru/ Institute for Problems in Mechanical Engineering] [http://www.ras.ru/en/index.aspx Russian Academy of Sciences] (IPME RAS).<br /> |__TOC__<br /> |}<br /> <br /> == Education ==<br /> <br /> * MSc, [http://tsu.ru/ TSU], [http://phys.tsu.ru/ PhF], chair of [http://phys.tsu.ru/index.php?page=40 Metal Physics], 2010<br /> Investigation of the effect of reinforcing particles to agglomerate high deformation and strength characteristics and peculiarities of fracture of composite materials at the meso level.<br /> Scientific advisor: prof. E. V. Shilko.<br /> <br /> == Employment ==<br /> <br /> * Trainee researcher, lab. &quot;Discrete Models in Mechanics&quot;, ([http://www.ipme.ru IPME RAS]) (since 2012)<br /> <br /> * Assistant, Department of [[Main Page | Theoretical and Applied Mechanics]] (since 2011)<br /> <br /> == Participation in projects ==<br /> * [[&quot;Crystal&quot; |Project &quot;Crystal&quot;]]<br /> <br /> == Research interests ==<br /> <br /> * Nanomechanics, molecular and particle dynamics<br /> <br /> * Stability, fracture, phase transitions<br /> <br /> * Thermal conductivity, thermal elasticity in discrete systems.<br /> <br /> == Selected publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. '''Stability and Structural Transitions in Crystal Lattices''' // H. Altenbach and N. F. Morozov (eds.), Surface Effects in Solid Mechanics, Advanced Structured Materials 30, Springer-Verlag Berlin Heidelberg 2013, P. 123-133 (Download pdf: [[Media:Podolskaya_2012_ESMC_Proc.pdf‎ | 467 Kb]])<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov. '''Description of the Geometry of Crystals with a Hexagonal Close-Packed Structure Based on Pair Interaction Potentials''' // Physics of the Solid State, 2012, Vol. 54, No. 7, pp. 1408–1416. (Download pdf: [[Media:Podolskaya_2012_FTT_eng.pdf|311 Kb]])<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko, P.V. Tkachev. '''Stability of Ideal Infinite Two-Dimensional Crystal Lattice''' // Doklady Physics, 2012, Vol. 57, No. 2, P. 92–95. (Download pdf: [[Media:Podolskaya_2012_DAN_eng.pdf|244 Kb]])<br /> <br /> * E.A. Podolskaya, A.Yu. Panchenko, K.S. Bukovskaya. '''Influence of shear strain on stability of 2D triangular lattice''' // [http://nanojournal.ifmo.ru Nanosystems: Physics, Chemistry, Mathematics], 2011, 2 (3), P. 60–64 (Download pdf: [[Media:Podolskaya_2011_NANOSYSTEMS_PHYS_CHEM_MATH_second.pdf ‎‎|144 Kb]])<br /> <br /> * E.A. Podolskaya, A.Yu. Panchenko, A.M. Krivtsov. '''Stability of 2D triangular lattice under finite biaxial strain''' // [http://nanojournal.ifmo.ru Nanosystems: Physics, Chemistry, Mathematics], 2011, 2 (2), P. 84–90 (Download pdf: [[Media:Podolskaya_2011_NANOSYSTEMS_PHYS_CHEM_MATH.pdf ‎‎|231 Kb]])<br /> <br /> * Панченко А.Ю., Шилько Е.В., Астафуров С.В., Коростелев С.Ю., Псахье С.Г. Formalism developed of discrete particle method for calculation conditions at the interface of solid with liquid // The Bulletin of Tomsk Polytechnic University. – 2008. – V. 313. – № 2. P. 85-90 ([http://www.lib.tpu.ru/fulltext/v/Bulletin_TPU/2008/v313/i2/21.pdf Download pdf]) <br /> <br /> * S.G. Paskhie, E.V. Shilko, S.V. Astafurov, A.V. Dimaki, V.V. Ruzhich, A.Yu. Panchenko Model study of formation and evolution of deformation-induces structures of subduction type in ice cover of Lake Baikal // Physical Mesomechanics. 2008. V. 11, № 1. P. 55-65 ([http://www.ispms.ru/i/upload/6541fb0119a87dc0289a92c2758658b6.pdf Download pdf]) <br /> <br /> == Teaching ==<br /> <br /> * Programming C++ (lectures), MPI ( practice) <br /> * Theoretical mechanics (practice)<br /> <br /> == Contacts ==<br /> <br /> '''E-mail:''' artemqt&lt;math&gt;@&lt;/math&gt;gmail.com<br /> <br /> '''WWW:''' http://mech.spbstu.ru/Panchenko_Artem ''(this page)''<br /> <br /> '''Mail:''' St. Petersburg Polytechnic University, Department of Theoretical and Applied Mechanics, <br /> 195251, Russia, St. Petersburg, Polytechnicheskaya, 29</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Vitaly_Kuzkin&diff=7867 Vitaly Kuzkin 2016-06-01T14:30:30Z <p>Кошелева Ксения Александровна: /* Participation in projects */</p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Vitaly A. Kuzkin&lt;/font&gt;<br /> <br /> {| style=&quot;color:black;background-color:#e0e0e0;&quot; cellpadding=&quot;15&quot; cellspacing=&quot;2&quot; border = &quot;1&quot;C<br /> |[[File:KuzkinVA.jpg|150px]]<br /> |<br /> ; Deputy Head of Department of [[Main Page | Theoretical and Applied Mechanics]] <br /> ; for research affairs<br /> <br /> :[http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics] ([http://www.physmech.ru/ former Faculty of Physics and Mechanics]) <br /> <br /> :[http://english.spbstu.ru/ Peter the Great St.Petersburg Polytechnic University] (SPbPU). <br /> <br /> ;Senior researcher <br /> <br /> ;:[[:ru: &quot;Дискретные модели механики&quot; | Laboratory for Discrete Models in Mechanics]] (DMML)<br /> <br /> :[http://www.ipme.ru/indexr.html Institute for Problems in Mechanical Engineering] [http://www.ras.ru Russian Academy of Sciences] (IPME RAS).<br /> |__TOC__<br /> |}<br /> <br /> <br /> <br /> == Education ==<br /> * BSc, [http://english.spbstu.ru/ SPbSTU], [http://www.physmech.ru/ FMF], dept. [http://www.physmech.ru/modules.php?name=Pages&amp;pa=showpage&amp;pid=5 Mechanics and Control Processes], 2007 (with honors)<br /> Bachelor thesis: Equations of state for perfect crystals.<br /> Scientific advisor: prof. [[Anton Krivtsov | А.М. Krivtsov]]<br /> * MSc, [http://english.spbstu.ru/ SPbSTU], [http://www.physmech.ru/ FMF], dept. [http://www.physmech.ru/modules.php?name=Pages&amp;pa=showpage&amp;pid=5 Mechanics and Control Processes], 2009 (with honors)<br /> Master thesis: Thermomechanical effects in perfect crystals.<br /> Scientific advisor: prof. [[Anton Krivtsov | А.М. Krivtsov]]<br /> * PhD, [http://english.spbstu.ru/ SPbSTU], [http://www.physmech.ru/ FMF], department for [[&quot;Теоретическая механика&quot; | Theoretical and Applied Mechanics]], 2011<br /> PhD thesis : Derivation of equivalent thermomechanical characteristics for perfect crystals.<br /> Scientific advisor: prof. [[Anton Krivtsov | А.М. Krivtsov]]<br /> <br /> == Employment ==<br /> * Vice Head of Department of [[Main Page | Theoretical and Applied Mechanics]] (since 2011) <br /> * Senior researcher, lab. &quot;Discrete Models in Mechanics&quot;, ([http://www.ipme.ru IPME RAS]) (since 2006)<br /> * PhD student, Department of [[Main Page | Theoretical and Applied Mechanics]] (2011-2011)<br /> * Teaching assistant, Department for [[Main Page | Theoretical and Applied Mechanics]] (2008 – 2011)<br /> <br /> == Professionl appointments ==<br /> <br /> * visiting researcher, Rzeszow University of Technology, [http://www.prz.rzeszow.pl/en/FoMaAP/?page=research Faculty of Mathematics and Applied Physics], Poland, 2012-2014<br /> * visiting researcher, Ruby Valley Research Institute ([http://williamhoover.info/ Prof. William G. Hoover]), USA, 2013 <br /> * visiting researcher, Technical Unversity of Hamburg-Harburg, [http://www.spe.tu-harburg.de Institute of Solids Process Engineering and Particle Technology], Germany, 2011<br /> * visiting student, Brown University, [http://www.engin.brown.edu/Faculty/gao/gaogroup/research.html Group of Prof. Huajian Gao], USA, 2007<br /> <br /> == Participation in projects ==<br /> * [http://fp7.imaps.aber.ac.uk/hydrofrac.html Enhancing hydraulic fracturing on the basis of numerical simulation of coupled geomechanical, hydrodynamic and microseismic processes] (HYDROFRAC)<br /> * [[:ru:Гамбургский проект | Hamburg project]]<br /> * [[:ru:Проект &quot;Кассиопея&quot; | Project &quot;AlpineReplay&quot;]] (see also [http://www.alpinereplay.com])<br /> * [[&quot;Crystal&quot; | Project &quot;Crystal&quot;]]<br /> * [[:ru:Моделирование механических свойств биоматериалов на основе фибрилл | Simulation of bio-materials consisting of fibrils]]<br /> <br /> == Research areas/interests ==<br /> * Mechanics of Discrete Media<br /> * Computational Mechanics of Discrete Media : Molecular Dynamics, Discrete Element Method <br /> * Smoothed Particles Hydrodynamics / Smoothed Particles Applied Mechanics<br /> * Computational geomechanics (hydraulic fracturing, proppant transport)<br /> * Rheology of suspensions<br /> * Thermal effects: [[:ru:Уравнения состояния идеальных кристаллов | equations of state]], heat conductivity, negative thermal expansion <br /> * Equivalent thermomechanical characteristics for discrete systems (stress tensor, heat flux)<br /> * Potentials for interaction between rigid bodies: [[:ru:Потенциал_Кузькина-Кривцова| potential for graphene]]<br /> * DEM simulation of discrete/granullar rods, shells, and bulk solids ([[:ru:V-model | V-model for bonds in solids]]) <br /> * Simulation of carbon nanostructures<br /> * [[:ru:Проект &quot;Кассиопея&quot;| mechanics of active sports, inertial navigation]], [http://ru.wikipedia.org/wiki/Нечёткая_логика Fuzzy logic]<br /> *...<br /> <br /> == Publications and patents ==<br /> * [http://scholar.google.ru/citations?hl=ru&amp;user=Z10_dC4AAAAJ&amp;view_op=list_works&amp;citft=1&amp;citft=2&amp;email_for_op=kuzkinva%40gmail.com&amp;gmla=AJsN-F4__9YUmhwNZ53vAAqnps74s0QWUbO3XDvh2j5zSsgg52oC-5YqNO34N4t_5SRktNwAItHoYj6Ak1-Js8uoEuzxp7K9PJdbH3GSwohpzHaGPvdfbHZca-EgxbaEwzNN3Fa_pUu6pxQMAx_CP6F9LaPXFmOo4Q&amp;undo=untrash_citations,Tyk-4Ss8FVUC Profile at Google Scholar]. <br /> <br /> * [http://www.scopus.com/authid/detail.url?authorId=36182246400 Profile at Scopus] <br /> <br /> * [https://www.researchgate.net/profile/Vitaly_Kuzkin Profile at ResearchGate]<br /> <br /> * [[:ru:Kuzkin_pub | '''Selected publications can be downloaded here...''']].<br /> <br /> == Journal reviewer ==<br /> <br /> * [http://www.journals.elsevier.com/applied-mathematical-modelling/ Applied Mathematical Modeling (Elsevier)]<br /> <br /> == Teaching ==<br /> * [[:ru:Теоретические Основы Метода Динамики Частиц| Particle Dynamics]] (lectures)<br /> * Theoretical Mechanics (practice)<br /> * Rigid Body Dynamics (practice)<br /> <br /> == Software ==<br /> * CAD/CAE, DEM Software: Solid Works, ANSYS, LS-DYNA, EDEM <br /> * Math Software: Maple, MathCad, MATLAB<br /> * PC languages: Pascal, C++<br /> <br /> == Some awards == <br /> * British Petroleum research grant for young scientists, 2012<br /> * Young Scientist Award on IUTAM Symposium on &quot;Vibration Analysis of Structures with Uncertainties&quot;, 2009 <br /> * Award for the Best Presentation on the first conference of OAO &quot;KBSM&quot;, 2009 <br /> * Award of &quot;Dynasty&quot; foundation for Young Physicists, 2009 <br /> * Award for Best Young Scientist of Polytechnical university, 2008 <br /> * Award for Best Presentation on All-Russia young researchers School-Conference &quot;Mathematical Modelling in natural sciences&quot;, Perm, Russia, 2007 <br /> * Award for Scientific Progress on &quot;XXXV Science week&quot; in SPbSTU, 2006 <br /> * Awards in 1-st(university), 2-nd(regional), 3-rd(All-Russia) tours of Olimpiad on Strength of Materials, 2005<br /> <br /> == Conferences ==<br /> <br /> * 5th International Conference Auxetics and other materials and models with &quot;negative&quot; characteristics, Poznan, Poland, 2014<br /> * Recent Advances in Numerical Simulation of Hydraulic Fracture, Rzeszow, Poland, 14-16 July 2014.<br /> * Advances in Micromechanics of Materials, Rzeszów, Poland, 8-11 July 2014.<br /> * Advanced Problems in Mechanics, St.Petersburg, Repino, June 30-July 6, 2014.<br /> * Advanced Problems in Mechanics, St.Petersburg, Repino, 2013.<br /> * Advanced Problems in Mechanics, St.Petersburg, Repino, 2012.<br /> * Advanced Problems in Mechanics, St.Petersburg, Repino, 2011.<br /> * Advanced Problems in Mechanics, St.Petersburg, Repino, 2010.<br /> * Joint US-Russia Conference &quot;Advances in Material Science&quot;, Prague, Chzech Republic, 2009.<br /> * Workshop on Advanced Computer Simulation Methods for Junior Scientists, St.Petersburg, 27-29 April, 2009.<br /> * IUTAM Simposium on Vibration of structures with uncertainities, Saint Petersburg, 2009<br /> * Workshop on Molecular Dynamics, Warwick, UK, 2009<br /> * The Sixth International conference on Engineering Computational Technology, Greece, Athens, 2008<br /> <br /> == The best quotes about Science ==<br /> * Physics is like making love: sure, it may give some practical results, but that's not why we do it. (c) Richard P. Feynman<br /> * The Scientist '''does not''' study nature because it is '''useful'''; he studies it because he delights in it, and he delights in it because it is beautiful. If nature were not beautiful, it would not be worth knowing, and if nature were not worth knowing, life would not be worth living. (c) Henri Poincare. <br /> * The science is no fun, if you are never wrong! (c) [http://en.wikipedia.org/wiki/Thomas_Gold Thomas Gold]<br /> * The science is said to be useful if its development tends to accentuate the existing inequalities in distribution of wealth, or more directly promotes the destruction of human life (с) G.H. Hardy (see also [http://www.math.ualberta.ca/mss/misc/A%20Mathematician's%20Apology.pdf G. H. Hardy A Mathematician's Apology. Cambridge: University Press. pp. 153, 2004])<br /> * No pain &lt;=&gt; No gain<br /> <br /> == Hobbies ==<br /> * My source of inspiration (see photo)<br /> [[File:7137.jpg|220px|thumb|right| Muse]]<br /> * Sport<br /> * Traveling<br /> <br /> == Contacts ==<br /> '''E-mail:''' kuzkinva&lt;math&gt;@&lt;/math&gt;gmail.com, kuzkin&lt;math&gt;@&lt;/math&gt;spbstu.ru<br /> <br /> '''Phone:''' +7-981-707-87-02<br /> <br /> '''Fax:''' +7-812-3214771 <br /> <br /> '''Skype:''' vitaly.kuzkin, vitaly.kuzkin1<br /> <br /> '''Vk.com:''' kuzkinva<br /> <br /> '''Mail:''' Institute for Problems in Mechanical Engineering RAS, <br /> 199178, Russia, St. Petersburg, Bolshoy pr. V.O., 61<br /> <br /> '''Web:''' tm.spbstu.ru/Kuzkin, mech.spbstu.ru/Vitaly_Kuzkin</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Podolskaya_Ekaterina&diff=7866 Podolskaya Ekaterina 2016-06-01T14:28:46Z <p>Кошелева Ксения Александровна: /* Participation in projects */</p> <hr /> <div>[[ru:Подольская Екатерина]]<br /> {{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt; Ekaterina A. Podolskaya&lt;/font&gt;<br /> <br /> {| style=&quot;color:black;background-color:#e0e0e0;&quot; cellpadding=&quot;15&quot; cellspacing=&quot;2&quot; border = &quot;1&quot;C<br /> |[[File:Photo_Kate_2015.jpg|160px]]<br /> |<br /> ; Deputy Head of Department of [[Main Page | Theoretical and Applied Mechanics]] <br /> ; for international collaboration<br /> <br /> :[http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics] ([http://www.physmech.ru/ former Faculty of Physics and Mechanics]) <br /> <br /> :[http://english.spbstu.ru/ Peter the Great St.Petersburg Polytechnic University] (SPbPU). <br /> <br /> ;Researcher <br /> <br /> ;:[[:ru:&quot;Дискретные модели механики&quot; | Laboratory for Discrete Models in Mechanics]] (DMML)<br /> <br /> :[http://www.ipme.ru/ Institute for Problems in Mechanical Engineering] [http://www.ras.ru/en/index.aspx Russian Academy of Sciences] (IPME RAS).<br /> |__TOC__<br /> |}<br /> <br /> == Education ==<br /> <br /> * PhD, [http://english.spbstu.ru/ SPbSTU], [http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ IAMM], Department of [[Main Page | Theoretical and Applied Mechanics]], 2013<br /> PhD thesis : Equilibrium and stability of crystalline solids at small and finite strains.<br /> Scientific advisor: prof. [[Anton Krivtsov | А.М. Krivtsov]]<br /> <br /> * MSc, [http://english.spbstu.ru/ SPbSTU], [http://www.physmech.ru/ FMF], Department of [[Main Page | Theoretical and Applied Mechanics]], 2011 (with honors)<br /> Master thesis: Stability of ideal infinite crystal lattice.<br /> Scientific advisor: prof. [[Anton Krivtsov | А.М. Krivtsov]]<br /> <br /> * BSc, [http://english.spbstu.ru/ SPbSTU], [http://www.physmech.ru/ FMF], Department of [http://www.physmech.ru/modules.php?name=Pages&amp;pa=showpage&amp;pid=5 Mechanics and Control Processes], 2009 (with honors)<br /> Bachelor thesis: Modelling of elastic properties of crystals with hexagonal close-packed lattice.<br /> Scientific advisor: prof. [[Anton Krivtsov | А.М. Krivtsov]]<br /> <br /> * English grammar school №61. 2005. ''Certificate in Advanced English (Cambridge ESOL)'',''Travel and Tourism Education Programme''.<br /> <br /> == Employment ==<br /> <br /> * Researcher, lab. &quot;Discrete Models in Mechanics&quot;, ([http://www.ipme.ru IPME RAS]) (since 2014)<br /> <br /> * Junior research fellow, lab. &quot;Discrete Models in Mechanics&quot;, ([http://www.ipme.ru IPME RAS]) (2009 - 2014)<br /> <br /> * Associate professor, Department of [[Main Page | Theoretical and Applied Mechanics]] (since 2014)<br /> <br /> * Assistant, Department of [[Main Page | Theoretical and Applied Mechanics]] (2009 - 2014)<br /> <br /> == Participation in projects ==<br /> * [[&quot;Crystal&quot; | Project &quot;Crystal&quot;]]<br /> <br /> == Research interests ==<br /> <br /> * Nonlinear elasticity, stability, fracture, phase transitions<br /> <br /> * Nanomechanics, molecular and particle dynamics<br /> <br /> * Evolutionary dynamics, internal dissipation<br /> <br /> <br /> == Selected publications ==<br /> <br /> * V.A. Kuzkin, A.M. Krivtsov, E.A. Podolskaya, M.L. Kachanov. '''Lattice with vacancies: elastic fields and effective properties in frameworks of discrete and continuum models'''. Philosophical Magazine. Part A: Materials Science. 2016. DOI: 10.1080/14786435.2016.1167979 (Download pdf: [[media:Kuzkin_PhilMag_2016.pdf‎ | 4.43 Mb]])<br /> <br /> * I.E. Berinskii, A.Yu. Panchenko, Е.А. Podolskaya. '''Application of the pair torque interaction potential to simulate the elastic behavior of SLMoS2'''. Modelling Simul. Mater. Sci. Eng. 24 (2016) 045003. DOI: 10.1088/0965-0393/24/4/045003. (Download pdf: [[media:Berinskii_MSMS_2016.pdf‎ | 444 kb]])<br /> <br /> * E.A. Podolskaya, A.Yu. Panchenko, A.B. Freidin, A.M. Krivtsov. '''Loss of ellipticity and structural transformations in planar simple crystal lattices'''. [http://www.springer.com/materials/mechanics/journal/707 Acta Mechanica], 2016, Volume 227, Issue 1 , pp 185-201. DOI:10.1007/s00707-015-1424-1 (Download pdf: [[media:Podolskaya_ACME_2015.pdf‎ | 3.61 Mb]])<br /> <br /> * E.A. Podolskaya. '''Equilibrium and Stability of HCP Crystal Structures under Finite Strain''' // Doklady Physics, 2014, Vol. 59, No. 8, pp. 372–374. (Download pdf: [[media:Podolskaya_DAN_2014_eng.pdf|391 Kb]])<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. '''Stability and Structural Transitions in Crystal Lattices''' // H. Altenbach and N. F. Morozov (eds.), Surface Effects in Solid Mechanics, Advanced Structured Materials 30, Springer-Verlag Berlin Heidelberg 2013, P. 123-133 (Download pdf: [[media:Podolskaya_2012_ESMC_Proc.pdf‎ | 467 Kb]])<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov. '''Description of the Geometry of Crystals with a Hexagonal Close-Packed Structure Based on Pair Interaction Potentials''' // Physics of the Solid State, 2012, Vol. 54, No. 7, pp. 1408–1416. (Download pdf: [[media:Podolskaya_2012_FTT_eng.pdf|311 Kb]])<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko, P.V. Tkachev. '''Stability of Ideal Infinite Two-Dimensional Crystal Lattice''' // Doklady Physics, 2012, Vol. 57, No. 2, pp. 92–95. (Downlaod pdf: [[media:Podolskaya_2012_DAN_eng.pdf|244 Kb]])<br /> <br /> * E.A. Podolskaya, A.Yu. Panchenko, K.S. Bukovskaya. '''Influence of shear strain on stability of 2D triangular lattice''' // [http://nanojournal.ifmo.ru Nanosystems: Physics, Chemistry, Mathematics], 2011, 2 (3), P. 60–64 (Download pdf: [[media:Podolskaya_2011_NANOSYSTEMS_PHYS_CHEM_MATH_second.pdf ‎‎|144 Kb]])<br /> <br /> * E.A. Podolskaya, A.Yu. Panchenko, A.M. Krivtsov. '''Stability of 2D triangular lattice under finite biaxial strain''' // [http://nanojournal.ifmo.ru Nanosystems: Physics, Chemistry, Mathematics], 2011, 2 (2), P. 84–90 (Download pdf: [[media:Podolskaya_2011_NANOSYSTEMS_PHYS_CHEM_MATH.pdf ‎‎|231 Kb]])<br /> <br /> * A.M. Krivtsov, E.A. Podolskaya. '''Modeling of Elastic Properties of Crystals with Hexagonal Close-Packed Lattice''' // Mechanics of Solids, 2010, Vol. 45, No. 3, pp. 370–378. (Download pdf: [[media:Krivtsov_2010_MTT_eng.pdf|502 Kb]])<br /> <br /> * E.A. Podolskaya, B.A. Smolnikov. '''Evolutionary dynamics of two linked bodies' plane motion''' // Proceedings of EUROMECH Colloquium 515 &quot;Advanced Applications and Perspectives of Multibody System Dynamics&quot;, Blagoevgrad, July 13-16, 2010, P. 72-73 (Download pdf: [[media:Podolskaya_smolnikov_euromech.pdf ‎‎|134 Kb]])<br /> <br /> == Teaching ==<br /> <br /> * [[:ru:Теория_упругости| Theory of Elasticity]]<br /> * Theoretical Mechanics<br /> <br /> == Contacts ==<br /> <br /> '''E-mail:''' katepodolskaya&lt;math&gt;@&lt;/math&gt;gmail.com<br /> <br /> '''WWW:''' http://tm.spbstu.ru/Podolskaya_ENG, http://mech.spbstu.ru/Podolskaya_Ekaterina <br /> <br /> '''Mail:''' Institute for Problems in Mechanical Engineering RAS, <br /> 199178, Russia, St. Petersburg, Bolshoy pr. V.O., 61<br /> <br /> &lt;ys4w&gt;&lt;/ys4w&gt;</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Department_Staff&diff=7863 Department Staff 2016-06-01T13:39:01Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>[[:en:Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''Department Staff''' &lt;HR&gt;<br /> <br /> {{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt;Employees of the Department &quot;Theoretical Mechanics&quot;&lt;/font&gt;<br /> <br /> [http://tm.spbstu.ru/%D0%A1%D0%BE%D1%82%D1%80%D1%83%D0%B4%D0%BD%D0%B8%D0%BA%D0%B8_%D0%BA%D0%B0%D1%84%D0%B5%D0%B4%D1%80%D1%8B_%22%D0%A2%D0%B5%D0%BE%D1%80%D0%B5%D1%82%D0%B8%D1%87%D0%B5%D1%81%D0%BA%D0%B0%D1%8F_%D0%BC%D0%B5%D1%85%D0%B0%D0%BD%D0%B8%D0%BA%D0%B0%22 In Russian]<br /> <br /> [[File:Kaf_TM.jpg|right|thumb|300px|[[Department Staff]]]]<br /> <br /> == Employees of the &quot;Polytech&quot; sector ==<br /> <br /> # Antimonov Mihail Aleksandrovich, technician (Part-time employee).<br /> # [[:ru:Igor_Asonov|Asonov Igor Evgenevich]], leading programmer (Part-time employee).<br /> # [[:ru:Igor_Berinskii|Berinskii Igor Efimovich]], associate professor (Part-time employee), Ph.D., Deputy Head of International Activities.<br /> # Borisenko Lyudmila Aleksandrovna, Secretary of the Department.<br /> # [[:ru:Vilchevskaya_ENG|Vilchevskaya Elena Nikitichna]], associate professor (Part-time employee), Ph.D.<br /> # Grigorieva Svetlana Nikolaevna, senior lecturer.<br /> # Guzev Valentin Vasilievich, professor, Sc.D.<br /> # [[:ru:Polina Dyatlova|Dyatlova Polina Aleksandrovna]], associate professor, Ph.D., Assistant Manager.<br /> # Emtsov Vladimir Georgievich, associate professor.<br /> # [[:ru:Ivanova|Ivanova Elena Aleksandrovna]], professor, Sc.D.<br /> # Karyakin Yuriy Evgenevich, professor, Sc.D.<br /> # [[:en:Anton Krivtsov|Krivtsov Anton Miroslavovich]], Head of Department, Sc.D.<br /> # Krokhaleva Galina Vladimirovna, assistant lecturer (Part-time employee), technician (Part-time employee).<br /> # Kostarev Aleksey Vladimirovich, associate professor, Ph.D.<br /> # Kostareva Tatyana Alekseevna, senior lecturer.<br /> # [[:ru:Vitaly_Kuzkin|Kuzkin Vitaly Andreevich]], assistant lecturer (Part-time employee), Deputy Head for Research Affairs.<br /> # Kuznetsova Anna Yurevna, assistant lecturer (Part-time employee).<br /> # Lebedev Dmitry Fedorovich, associate professor, Ph.D.<br /> # Le-Zakharov Aleksandr Anevich, associate professor (Part-time employee), Deputy Head of Prospecting Projects.<br /> # Le-Zakharov Sergey Anevich, assistant lecturer (Part-time employee).<br /> # [[:ru:Olga_Loboda|Loboda Olga Sergeevna]], associate professor, Ph.D., Deputy Head of Academic Affairs<br /> # Mesheryakov Yury Ivanovich, professor (Part-time employee).<br /> # [[:ru:Andrey_Murachev|Murachev Andrey Sergeevich]], leading programmer (Part-time employee).<br /> # Nosov Vyacheslav Nikolaevich, associate professor, Ph.D.<br /> # [[:en:Panchenko_Artem|Panchenko Artem Yurevich]], assistant lecturer, technician (Part-time employee).<br /> # Polyahov Nikolai Nikolaevich, associate professor, Ph.D.<br /> # [[Podolskaya_Ekaterina|Podolskaya Ekaterina Aleksandrovna]], assistant lecturer (Part-time employee).<br /> # [[Alexey Porubov|Porubov Aleksey Viktorovich]], professor (Part-time employee), Sc.D.<br /> # Prokhorenko Fedor Fedorovich, senior lecturer.<br /> # Sablin Aleksandr Dmitrievich, associate professor, Ph.D.<br /> # Tikhomirov Viktor Vasilevich, associate professor, Ph.D., Vice Dean.<br /> # Troickaya Olga Anatolevna, associate professor, Ph.D., Scientific Secretary.<br /> # [http://www.ipme.ru/ipme/labs/mmmm/Filippov.htm Filippov Roman Aleksandrovich], assistant lecturer (Part-time employee).<br /> # Shchukina Vera Ivanovna, senior lecturer.<br /> <br /> == Employees of the &quot;PIMash&quot; sector ==<br /> <br /> # Agarkova Nataliya Nikolaevna, associate professor, Ph.D.<br /> # [[:ru:Журавлева_Елена_Юрьевна|Zhuravleva Elena Yurevna]], associate professor, Ph.D.<br /> # [[:ru:Иванова_Елена_Гелиевна|Ivanova Elena Gelievna]], associate professor, Ph.D.<br /> # Kazakevich Andrey Genrikhovich, associate professor (Part-time employee),Ph.D.<br /> # Petrova Nina Aleksandrovna, senior laboratory assistant.<br /> # Soytu Nataliya Yurevna, associate professor (Part-time employee), Ph.D.<br /> # [[:ru:Хитрик_Валерий_Эмильевич|Hitrik Valeriy Yemilevich]], associate professor, Ph.D.<br /> <br /> == External collaborators ==<br /> <br /> # Belyaeva Ekaterina Vitalevna<br /> # Melikhov Efim Nikolaevich, [http://www.fmctechnologies.com/ FMC-Technologies]<br /> # Merkulova Anastasiya Vitalevna<br /> # Sotnik Dina, Siemens PLM<br /> # Shubin Sergey Nikolaevich, [http://www.fmctechnologies.com/ FMC-Technologies]<br /> # Klavdieva Ekaterina Dmitrievna<br /> <br /> == Links ==<br /> <br /> * [[:ru:Расписание занятий преподавателей|Class Schedule]] (in Russian)<br /> * [[Administration|Administration]]<br /> &lt;!--Staff,*[[:ru:Телефоны и электронные адреса сотрудников|Phone numbers and e-mail addresses of the employees]]}} (in Russian)<br /> <br /> [[:ru:Category:Коллективы|Category:Community]]--&gt;</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Department_Staff&diff=7862 Department Staff 2016-06-01T13:38:19Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>[[:en:Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''Department Staff''' &lt;HR&gt;<br /> <br /> {{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}<br /> &lt;font size=&quot;5&quot;&gt;Employees of the Department &quot;Theoretical Mechanics&quot;&lt;/font&gt;<br /> <br /> [http://tm.spbstu.ru/Сотрудники_кафедры_Теоретическая_механика In Russian]<br /> <br /> [[File:Kaf_TM.jpg|right|thumb|300px|[[Department Staff]]]]<br /> <br /> == Employees of the &quot;Polytech&quot; sector ==<br /> <br /> # Antimonov Mihail Aleksandrovich, technician (Part-time employee).<br /> # [[:ru:Igor_Asonov|Asonov Igor Evgenevich]], leading programmer (Part-time employee).<br /> # [[:ru:Igor_Berinskii|Berinskii Igor Efimovich]], associate professor (Part-time employee), Ph.D., Deputy Head of International Activities.<br /> # Borisenko Lyudmila Aleksandrovna, Secretary of the Department.<br /> # [[:ru:Vilchevskaya_ENG|Vilchevskaya Elena Nikitichna]], associate professor (Part-time employee), Ph.D.<br /> # Grigorieva Svetlana Nikolaevna, senior lecturer.<br /> # Guzev Valentin Vasilievich, professor, Sc.D.<br /> # [[:ru:Polina Dyatlova|Dyatlova Polina Aleksandrovna]], associate professor, Ph.D., Assistant Manager.<br /> # Emtsov Vladimir Georgievich, associate professor.<br /> # [[:ru:Ivanova|Ivanova Elena Aleksandrovna]], professor, Sc.D.<br /> # Karyakin Yuriy Evgenevich, professor, Sc.D.<br /> # [[:en:Anton Krivtsov|Krivtsov Anton Miroslavovich]], Head of Department, Sc.D.<br /> # Krokhaleva Galina Vladimirovna, assistant lecturer (Part-time employee), technician (Part-time employee).<br /> # Kostarev Aleksey Vladimirovich, associate professor, Ph.D.<br /> # Kostareva Tatyana Alekseevna, senior lecturer.<br /> # [[:ru:Vitaly_Kuzkin|Kuzkin Vitaly Andreevich]], assistant lecturer (Part-time employee), Deputy Head for Research Affairs.<br /> # Kuznetsova Anna Yurevna, assistant lecturer (Part-time employee).<br /> # Lebedev Dmitry Fedorovich, associate professor, Ph.D.<br /> # Le-Zakharov Aleksandr Anevich, associate professor (Part-time employee), Deputy Head of Prospecting Projects.<br /> # Le-Zakharov Sergey Anevich, assistant lecturer (Part-time employee).<br /> # [[:ru:Olga_Loboda|Loboda Olga Sergeevna]], associate professor, Ph.D., Deputy Head of Academic Affairs<br /> # Mesheryakov Yury Ivanovich, professor (Part-time employee).<br /> # [[:ru:Andrey_Murachev|Murachev Andrey Sergeevich]], leading programmer (Part-time employee).<br /> # Nosov Vyacheslav Nikolaevich, associate professor, Ph.D.<br /> # [[:en:Panchenko_Artem|Panchenko Artem Yurevich]], assistant lecturer, technician (Part-time employee).<br /> # Polyahov Nikolai Nikolaevich, associate professor, Ph.D.<br /> # [[Podolskaya_Ekaterina|Podolskaya Ekaterina Aleksandrovna]], assistant lecturer (Part-time employee).<br /> # [[Alexey Porubov|Porubov Aleksey Viktorovich]], professor (Part-time employee), Sc.D.<br /> # Prokhorenko Fedor Fedorovich, senior lecturer.<br /> # Sablin Aleksandr Dmitrievich, associate professor, Ph.D.<br /> # Tikhomirov Viktor Vasilevich, associate professor, Ph.D., Vice Dean.<br /> # Troickaya Olga Anatolevna, associate professor, Ph.D., Scientific Secretary.<br /> # [http://www.ipme.ru/ipme/labs/mmmm/Filippov.htm Filippov Roman Aleksandrovich], assistant lecturer (Part-time employee).<br /> # Shchukina Vera Ivanovna, senior lecturer.<br /> <br /> == Employees of the &quot;PIMash&quot; sector ==<br /> <br /> # Agarkova Nataliya Nikolaevna, associate professor, Ph.D.<br /> # [[:ru:Журавлева_Елена_Юрьевна|Zhuravleva Elena Yurevna]], associate professor, Ph.D.<br /> # [[:ru:Иванова_Елена_Гелиевна|Ivanova Elena Gelievna]], associate professor, Ph.D.<br /> # Kazakevich Andrey Genrikhovich, associate professor (Part-time employee),Ph.D.<br /> # Petrova Nina Aleksandrovna, senior laboratory assistant.<br /> # Soytu Nataliya Yurevna, associate professor (Part-time employee), Ph.D.<br /> # [[:ru:Хитрик_Валерий_Эмильевич|Hitrik Valeriy Yemilevich]], associate professor, Ph.D.<br /> <br /> == External collaborators ==<br /> <br /> # Belyaeva Ekaterina Vitalevna<br /> # Melikhov Efim Nikolaevich, [http://www.fmctechnologies.com/ FMC-Technologies]<br /> # Merkulova Anastasiya Vitalevna<br /> # Sotnik Dina, Siemens PLM<br /> # Shubin Sergey Nikolaevich, [http://www.fmctechnologies.com/ FMC-Technologies]<br /> # Klavdieva Ekaterina Dmitrievna<br /> <br /> == Links ==<br /> <br /> * [[:ru:Расписание занятий преподавателей|Class Schedule]] (in Russian)<br /> * [[Administration|Administration]]<br /> &lt;!--Staff,*[[:ru:Телефоны и электронные адреса сотрудников|Phone numbers and e-mail addresses of the employees]]}} (in Russian)<br /> <br /> [[:ru:Category:Коллективы|Category:Community]]--&gt;</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7861 "Crystal" 2016-06-01T13:35:08Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [http://tm.spbstu.ru/%D0%9F%D1%80%D0%BE%D0%B5%D0%BA%D1%82_%22%D0%9A%D1%80%D0%B8%D1%81%D1%82%D0%B0%D0%BB%D0%BB%22 In Russian]<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012 Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. <br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009.<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Loboda O. S., Krivtsov A. M. Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7860 "Crystal" 2016-06-01T13:33:52Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[Проект &quot;Кристалл&quot; | In Russian]]<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012 Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. <br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009.<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Loboda O. S., Krivtsov A. M. Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=Main_Page&diff=7859 Main Page 2016-06-01T13:17:50Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>{{DISPLAYTITLE:&lt;span style=&quot;display:none&quot;&gt;{{FULLPAGENAME}}&lt;/span&gt;}}&lt;!----&gt;<br /> &lt;center&gt;[http://english.spbstu.ru/ Peter the Great St. Petersburg Polytechnic University]&lt;/center&gt;<br /> &lt;center&gt; [http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics] &lt;/center&gt;<br /> &lt;center&gt;&lt;h1&gt;Department of Theoretical and Applied Mechanics&lt;/h1&gt;&lt;/center&gt;<br /> __NOTOC__<br /> [[File:ADDCS.png|thumb|center|700px]]<br /> <br /> [[ru:Кафедра &quot;Теоретическая механика&quot;]]<br /> <br /> &lt;center&gt;&lt;h2&gt;[[IMDP|International master degree program &quot;Mechanics and Mathematical Modeling&quot; ]]&lt;/h2&gt;&lt;/center&gt;<br /> <br /> &lt;!-- Навигация по сайту: [[Категории]] --&gt;<br /> <br /> {{Раздел заглавной страницы | x = 3 | Заголовок = Admissions (undergraduate, graduate, PhD) | Содержание = <br /> &lt;div style=&quot;float:left; width:49%&quot;&gt;<br /> &lt;!-- [[День открытых дверей|{{oncolor|yellow|red|'''День открытых дверей (10 февраля 2012 г.)'''}}]] --&gt;<br /> <br /> * [[International Master Degree Programme#Key facts|{{oncolor|yellow|blue|'''How to apply?'''}}]]<br /> * [[Open_Days | Open Days info]]<br /> &lt;!-- * [[:ru:Поступающие на кафедру &quot;Теоретическая механика&quot; | Рейтинг абитуриентов, проходной балл (2011-2013)]]<br /> * Программа обучения: [[:ru:Учебные планы (бакалавриат) | бакалавриат]], [[:ru:Учебные планы (магистратура) | магистратура]] --&gt;<br /> * [[International Master Degree Program | International Master Degree Program]]<br /> &lt;!-- * [[:ru:Поступление на кафедру Теоретическая Механика#Трудоустройство | '''Трудоустройство, производственная практика''']] --&gt;<br /> * [[International_Master_Degree_Programme#PhD_programs | PhD studentship]]<br /> * [[Open_Days#The_interview |Interviews with the applicants]] <br /> * [[Main_Page#Contact information | '''Contacts''']]<br /> [[Media: Mechanics_and_Mathematical_Modeling.pdf|'''Download a booklet about the program''']]<br /> <br /> [[Media: TM-presentation.pdf |'''A presentation for those who are interested in the admission''']]<br /> <br /> &lt;!--&lt;/div&gt;&lt;div style=&quot;float:right; width:25%&quot;&gt;<br /> &lt;htmlet nocache=&quot;yes&quot;&gt;Tcvetkov/Mini_Demos/Lattice_v8_mini&lt;/htmlet&gt;<br /> &lt;/div&gt;&lt;div style=&quot;float:right; width:25%&quot;&gt;<br /> &lt;htmlet nocache=&quot;yes&quot;&gt;Tcvetkov/Mini_Demos/Balls_v6_mini&lt;/htmlet&gt;<br /> * [[Летняя практика для школьников]]<br /> * [[ Lomonosov |Олимпиада &quot;Ломоносов&quot;]] <br /> * [[Interesting links]]--&gt;<br /> &lt;/div&gt;&lt;div style=&quot;float:right; width:49%&quot;&gt;<br /> [[File:CrowdPic.png|right|500px]]<br /> <br /> &lt;/div&gt;&lt;br style=&quot;clear: both&quot; /&gt;<br /> }}<br /> <br /> &lt;div style=&quot;float:left; width:49%&quot;&gt;<br /> {{Раздел заглавной страницы | x = 1 | Заголовок = Department: people, events, facts | Содержание = <br /> [[File:Meshersky_Ivan_Vsevolodovich.jpg|right|thumb|120px| [[:ru:Иван Всеволодович Мещерский|I.V. 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&gt;<br /> '''Unique equipment and software'''<br /> &lt;div class=&quot;mw-collapsible-content&quot;&gt;<br /> * [[:ru:Кафедра &quot;Теоретическая механика&quot;: Суперкомпьютеры | Supercomputers]]<br /> * [[:ru:Высокоскоростная видеокамера|High-speed camera]]<br /> * Software package for granular media modeling [http://www.dem-solutions.com/ EDEM]<br /> * Laboratory [[Laboratory_Mini_FabLab|Mini FabLab™]]<br /> * [[Photomechanics™|Photomechanics™]] (studio for technical photo and video filming)<br /> * [[3D_models_of_mechanisms | 3D models of mechanisms]]<br /> &lt;/div&gt;<br /> &lt;/div&gt;<br /> }}<br /> <br /> {{Раздел заглавной страницы | x = 0 | Заголовок = Projects | Содержание = <br /> [[File:AlpineReplay.jpg‎|right|thumb|160px|[[:ru:AlpineReplay | &quot;AlpineReplay&quot; project]]]]<br /> * [[Students_science_projects|{{oncolor|yellow|blue|Students science projects}}]]<br /> &lt;!--* [[:ru:Абердинский проект|Aberdeen project]]--&gt;<br /> * [[Virtual laboratory|{{oncolor|yellow|blue|Virtual laboratory}}]]<br /> * [[:ru:Гамбургский проект|Hamburg project]]<br /> &lt;!--* [[:ru:Научный справочник|Science Directory]]--&gt;<br /> * [[:ru:AlpineReplay | &quot;AlpineReplay&quot;]]<br /> * [[Origin_of_the_Moon._New_Concept|&quot;Earth-Moon&quot;]]<br /> * [[&quot;Crystal&quot;]]<br /> &lt;!--* [[:ru:Проект &quot;Фактория&quot;|&quot;Factoria&quot;]]--&gt;<br /> * [[:ru:Проект &quot;Биомедицинская механика&quot;|&quot;Biomedical mechanics&quot;]]<br /> <br /> <br /> }}<br /> <br /> <br /> &lt;/div&gt;&lt;br style=&quot;clear: both&quot; 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(Hydro Building 1, rooms 202, 238).<br /> <br /> '''Telephone:''' +7-812-2909872 <br /> <br /> '''Telephone for admission:''' +7-952-25474033 <br /> <br /> '''Skype:''' Theormech_spbgpu<br /> <br /> '''E-mail:''' mechanics&lt;math&gt;@&lt;/math&gt;phmf.spbstu.ru<br /> <br /> '''E-mail for admission:''' tmech.imdp&lt;math&gt;@&lt;/math&gt;gmail&lt;math&gt;.&lt;/math&gt;com <br /> <br /> '''Website:''' [http://mech.spbstu.ru mech.spbstu.ru]<br /> <br /> &lt;ys4w&gt;&lt;/ys4w&gt; {{#VKLike:|||}}<br /> }}<br /> <br /> {{Раздел заглавной страницы | x = 2 | Заголовок = Links | Содержание = <br /> &lt;!--[[File:Sky_01.jpg|right|200px]]--&gt;<br /> [[File:Sky_02.jpg|right|200px]]<br /> * [http://english.spbstu.ru/education/programs/programs-in-english/master-s-degree/advanced-dynamics-of-discrete-and-continuum-systems/index.php?sphrase_id=94280 Information about the Master's Degree Program at spbstu.ru]<br /> * [[Center_for_scientific_and_technical_creativity|Center for Scientific Creativity of the Youth]] (SCY)<br /> &lt;!--* [[:ru:Объединенная лаборатория &quot;Дискретные модели механики&quot;|Joint Laboratory &quot;Discrete models in mechanics&quot;]] (DMM™)--&gt;<br /> * [http://www.ipme.ru/ipme/labs/msm/MD_RG/index.html Laboratory &quot;Discrete models in mechanics&quot; IPME RAS] (DMM)<br /> * [http://english.spbstu.ru/structure/institut_prikladnoy_matematiki_i_mekhaniki/ Institute of Applied Mathematics and Mechanics SPbPU] (IAMM)<br /> * [http://english.spbstu.ru/ Peter the Great St. Petersburg Polytechnic University] (SPbPU)<br /> * [http://www.ipme.ru Institute for Problems in Mechanical Engineering of Russian Academy of Sciences] (IPME RAS)<br /> &lt;br style=&quot;clear: both&quot; /&gt;<br /> }}<br /> <br /> <br /> &lt;div style=&quot;color:white&quot;&gt;<br /> &lt;small&gt; '''Ключевые слова''': куда пойти учиться, день открытых дверей, проходной балл, абитуриент, поступление в ВУЗ, ВУЗы, ЕГЭ, математика, физика, механика, моделирование, программирование, информатика, робототехника, образование, престижное образование, Политех, СПбГПУ, физмех, физ мех, мехмат, мат мех, матмех, мат мех, теор мех, yes tm, международное сотрудничество, теормех, бакалавр, магистр, бакалавриат, магистратура, аспирантура, военная кафедра, поступление в бакалавриат, поступление в магистратуру, СПб, магистратура за рубежом, обучение за рубежом, два диплома, стажировки за рубежом, зарубежные стажировки, трудоустройство, фудаментальное образование, перспективное образование, научная работа, мультидисциплинарное образование, engineering, mechanics, mechanical engineering, computer simulations, programming, mathematics, physics, chemistry, biology, multidisciplinary, прикладная математика, прикладная механика, институт прикладной математики и механики, ИПМиМ, ИПММ, 010800, 010303, 010403 Механика и математическое моделирование, IT &lt;/small&gt;<br /> &lt;/div&gt;<br /> &lt;!--&lt;StatisticYaGoog/&gt;--&gt;</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7858 "Crystal" 2016-06-01T13:05:52Z <p>Кошелева Ксения Александровна: /* Project publications */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012 Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. <br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009.<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Loboda O. S., Krivtsov A. M. Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7857 "Crystal" 2016-06-01T13:04:23Z <p>Кошелева Ксения Александровна: /* Project publications */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012 Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Loboda O. S., Krivtsov A. M. Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7856 "Crystal" 2016-06-01T13:03:11Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012 Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7855 "Crystal" 2016-06-01T13:02:36Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012| Crystal Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7854 "Crystal" 2016-06-01T13:01:47Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012| Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7853 "Crystal" 2016-06-01T13:00:01Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [[Crystal: Graz 2012]]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7852 "Crystal" 2016-06-01T12:49:18Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [[Crystal:_Graz_2012|Crystal: Graz 2012]]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7851 "Crystal" 2016-06-01T12:48:27Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012|Crystal: Graz 2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7850 "Crystal" 2016-06-01T12:47:54Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> * [http://tm.spbstu.ru/Crystal:_Graz_2012]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7849 "Crystal" 2016-06-01T12:46:22Z <p>Кошелева Ксения Александровна: /* See also */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> [[Crystal: Graz 2012]]<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7848 "Crystal" 2016-06-01T12:44:32Z <p>Кошелева Ксения Александровна: </p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == See also ==<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна http://tm.spbstu.ru/?title=%22Crystal%22&diff=7795 "Crystal" 2016-05-31T15:09:48Z <p>Кошелева Ксения Александровна: /* Project publications */</p> <hr /> <div>[[Main Page|Department of Theoretical and Applied Mechanics]] &gt; '''&quot;Crystal&quot;''' &lt;HR&gt;<br /> <br /> [[File:diamond.jpg|thumb]]<br /> <br /> The project is dedicated:<br /> <br /> * definition of the link between the mechanical characteristics describing linear elastic properties crystalline solids at the micro and macro levels;<br /> * definition of numerical values elastic characteristics at the micro level on the known experimental values elastic characteristics at the macro level.<br /> <br /> It covers the following characteristics:<br /> <br /> * at the micro level: the rigidity of the interatomic bonds;<br /> * at the macro level: elastic material characteristics such as stiffness tensor components, the Young's modulus, Poisson's ratio, etc.<br /> <br /> == Considered model ==<br /> <br /> The following table considered models classified by type and lattices of type interaction. For each model listed responsible for research (as of 2010). Work carried out under the supervision of [[Anton Krivtsov]]<br /> <br /> {| class=&quot;wikitable&quot; <br /> ! colspan=&quot;4&quot;| Structure <br /> ! colspan=&quot;4&quot;| Interaction<br /> |-<br /> | Lattice <br /> | Groups <br /> | Atoms &lt;BR&gt; stacked <br /> | Modules &lt;BR&gt; elasticity <br /> | Power <br /> | Moment <br /> | 3-partial <br /> | 4-partial<br /> |-<br /> | ОЦК <br /> | <br /> | 1 <br /> | 3 <br /> | N.Dvas <br /> | М.Kalmikova <br /> | <br /> | <br /> |-<br /> | ГЦК <br /> | ABCABC <br /> | 1 <br /> | 3 <br /> | I.Neugebauer <br /> | I.Neugebauer <br /> | I.Neugebauer<br /> | <br /> |-<br /> | ГПУ <br /> | ABABAB <br /> | 2 <br /> | 5 <br /> | [[Podolskaya_Ekaterina|E.Podolskaya]]<br /> | [[Podolskaya_Ekaterina|E.Podolskaya]] <br /> | <br /> | <br /> |-<br /> | Diamond <br /> | ABCABC <br /> | 2 <br /> | 3 <br /> | I.Neugebauer <br /> | [[O.S. Loboda|O.Loboda]] <br /> | S.Hakalo<br /> | [[:ru:Igor_Berinskii|I.Berinskii]]<br /> |-<br /> | Lonsdale <br /> | ABABAB <br /> | 4 <br /> | 5 <br /> | <br /> | S.Hakalo <br /> | <br /> | <br /> |-<br /> | Graphene 2D <br /> | <br /> | 2 <br /> | 2 <br /> | I.Neugebauer <br /> | [[:ru:Igor_Berinskii|I.Berinskii]]<br /> | [[:ru:Igor_Berinskii|I.Berinskii]]<br /> | [[:ru:Igor_Berinskii|I.Berinskii]]<br /> |-<br /> | Graphene 3D <br /> | <br /> | 2 <br /> | 8 <br /> | <br /> | А.Kudarova, [[Vitaly_Kuzkin|V.Kuzkin]] <br /> | <br /> | <br /> |-<br /> | α - graphite <br /> | ABABAB <br /> | 4 <br /> | 5 <br /> | <br /> | S.Hakalo <br /> | <br /> | <br /> |-<br /> | β - graphite <br /> | ABCABC <br /> | 2 <br /> | ? <br /> | <br /> | S.Hakalo <br /> | <br /> | <br /> |}<br /> <br /> == See also ==<br /> <br /> == link ==<br /> * [http://en.wikipedia.org/wiki/Allotropes_of_iron Allotropes of iron]<br /> <br /> == Project publications ==<br /> <br /> * E.A. Podolskaya, A.M. Krivtsov, A.Yu. Panchenko. Stability and Structural Transitions in Crystal Lattices // Altenbach/Morozov (Eds), Surface Effects in Solid Mechanics (Series: Advanced Structured Materials Vol. 30), 2012, P. 131-141 (Скачать корректуру pdf: 215 Kb)<br /> * A.M. Krivtsov, V.A. Kuzkin, Derivation of Equations of State for Ideal Crystals of Simple Structure // Mech. Solids. 46 (3), 387-399 (2011)<br /> * Eremeyev V.A., Ivanova E.A., Indeitsev D.A. Wave processes in nanostructures formed by nanotube arrays or nanosize crystals. // Journal of Applied Mechanics and Technical Physics. 2010. Vol. 51. N 4. P. 569-578.<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals. // ArXiv:1004.3008v1 [cond-mat.mtrl-sci]. 2010. Also published in Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties (St. Petersburg, Russia, 2009), Springer, 2011, pp. 403-416. (Download pdf: 525 kb)<br /> * Kuzkin V.A., Krivtsov A.M. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009, pp. 403-416. (ArXive)<br /> * V.A. Kuzkin. Equivalent thermo-mechanical parameters for perfect crystals with arbitrary multibody potential // Proc. of XXXVII Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2009. P. 421-431<br /> * V.A. Kuzkin, A.M. Krivtsov. Thermo-mechanical effects in perfect crystals // Proc. of IUTAM Symposium on The Vibration Analysis of Structures with Uncertainties, 2009 [paper in press].<br /> * V.A. Kuzkin, A. M. Krivtsov. Thermomechanical effects in perfect crystals with arbitrary multibody potential. // Proc. of Int. Conf. on Advances in Materials Science. Prague. 2009. III, 30-34.<br /> * O. S. Loboda, A.M. Krivtsov. Determination mechanical properties of nanostructures with complex crystal lattice using moment interaction at microscale. Scale effect in elastic properties. Reviews on advanced materials science. 2009, Vol. 20, № 2.<br /> * Alexander A. Le-Zakharov, Anton M. Krivtsov. Molecular dynamics modeling of heat wave propagation in crystals // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 420-425<br /> Asiya Kudarova. Modeling of graphene crystal lattice. // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 388-393.<br /> * V.A. Kuzkin, A.M. Krivtsov. Microscopic Derivation of the Equation of State for Perfect Crystals // Proceedings of the Sixth International Conference on Engineering Computational Technology, M. Papadrakakis and B.H.V. Topping, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 145, 2008<br /> * E.A. Podolskaya. Modeling of hexagonal close-packed crystal lattices // Proc. of XXXVI Summer School – Conference “Advanced Problems in Mechanics”. St. Petersburg. 2008. P. 533-537<br /> * I. E. Berinskiy, A. M. Krivtsov. Stability analysis of graphite crystal lattice with moment interactions. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St.-Petersburg, Russia. 2007, 63-71.<br /> * Olga S. Loboda. Scale effect in elastic properties of nanostructures with complex crystal lattices. // Proc. of XXXIV Summer School &quot;Advanced Problems in Mechanics&quot;, St. Petersburg, Russia. 2007, 341-349.<br /> * Krivtsov A. M. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Proc. of XXXIII Summer School “Advanced Problems in Me¬chanics”, St. Petersburg, Russia, 2006, 341-346.<br /> * Krivtsov A. MD modeling of low-cycle high-amplitude loading of monocrystal material with defects. // Book of abstracts. XXXIV Summer School “Advanced Problems in Mechanics 2006”, St. Petersburg, Russia, 53.<br /> * Loboda O. S. Comparison of discrete and continuum modeling for 2D nanocrystal stripe vibrations. // Proc. of XXXIII Summer School “Advanced Problems in Mechanics”, St. Petersburg, Russia, 2006, 243-250.<br /> * Лобода О. С., Кривцов А. М. Влияние масштабного фактора на модули упругости трехмерного нанокристалла // Известия РАН. Механика твердого тела. № 4, 2005, с. 27-41. To be translated to English in: Scale effect in elastic modules for 3D-nanocrystals. Mechanics of Solids. Vol. 4, pp. 20-32.<br /> * Krivtsov A. M. Molecular dynamics simulation of impact fracture in polycrystalline materials. // Meccanica, 2003, 38(1), 61–70.</div> Кошелева Ксения Александровна