Елена Вильчевская — различия между версиями

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[[Кафедра "Теоретическая механика"]] > '''Е.Н.Вильчевская''' <HR>
  
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{{DISPLAYTITLE:<span style="display:none">{{FULLPAGENAME}}</span>}}
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<font size="5">Елена Никитична Вильчевская</font>
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[[Vilchevskaya_ENG| '''English version''']]
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{| style="color:black;background-color:#e0e0e0;" cellpadding="15" cellspacing="2" border = "1"C
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|[[Файл:Vilchevskaya_Elena.jpg|thumb|200px]]
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;Доцент кафедры
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;:[["Теоретическая механика"]] (ТМ)
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:[http://www.spbstu.ru/departments/base/amm/index.asp Институт прикладной математики и механики] ([http://www.physmech.ru/ Физико-Механический факультет])
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:[http://www.spbstu.ru/ Санкт-Петербургский государственный политехнический университет] (СПбГПУ).
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;Ученый секретарь
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:[http://www.ipme.ru/indexr.html Институт проблем машиноведения] [http://www.ras.ru Российской Академии наук] (ИПМаш РАН).
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|__TOC__
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== Образование ==
 
== Образование ==
 
* Магистр технических наук: СПбГПУ, ФМФ, МПУ
 
* Магистр технических наук: СПбГПУ, ФМФ, МПУ
 
== Работа ==
 
* СПбГПУ: доцент, зам. зав. каф.
 
* ИПМаш РАН: Ученый секретарь.
 
  
 
== Научные интересы ==
 
== Научные интересы ==
Строка 19: Строка 36:
 
== Преподавание ==
 
== Преподавание ==
 
* Лекционный курс: "Теоретическая механика".
 
* Лекционный курс: "Теоретическая механика".
* Лекционный курс: "Тензорная алгебра и тензорный анализ".
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* Лекционный курс: "Тензорная алгебра и тензорный анализ" (см. [[#Учебные пособия|пособие]]).
* Лекционный курс: "Термодинамика с позиций механики сплошной среды" (готовится).
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* Лекционный курс: "Термодинамика с позиций механики сплошной среды".
* Лекционный курс: "Реология и моделирование" (готовится).
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* Лекционный курс: "Механика сплошных сред".
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* Лекционный курс: "Микромеханика неоднородных сред".
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== Учебные пособия ==
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* [[Е.Н. Вильчевская]]. '''Тензорная алгебра и тезорный анализ''': ''учеб. пособие''. - СПб.: ПОЛИТЕХ-ПРЕСС, 2019. -- 128 c.
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(Скачать pdf: [[Медиа:Vilch-Tensor C.pdf|6.8M]])
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* [[Е.Н. Вильчевская]]. '''Тензорная алгебра и тезорный анализ''': ''учеб. пособие''. - СПб.: [http://gpupress.ru/ Изд-во Политехн. ун-та], 2012. 44 c. (Скачать pdf: [[Медиа: Vilch-Tensor5.pdf |297 Kb]])
  
 
== Избранные публикации ==
 
== Избранные публикации ==
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* E Vilchevskaya, I Sevostianov. Effect of pore shapes on the overall electrical conductivity of cathode material in Li-ion batteries. International Journal of Engineering Science 146, 103187 (2020) https://doi.org/10.1016/j.ijengsci.2019.103187
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* E Vilchevskaya. (2019) On Micropolar Theory with Inertia Production. In: Altenbach H., Öchsner A. (eds) State of the Art and Future Trends in Material Modeling. Advanced Structured Materials, vol 100. Springer, Cham. pp. 421-442,  https://doi.org/10.1007/978-3-030-30355-6_18
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* Alexander B. Freidin, Elena N. Vilchevskaya. Chemical Affinity Tensor in Coupled Problems of Mechanochemistry. In: Altenbach H., Öchsner A. (eds) Encyclopedia of Continuum Mechanics. Springer, Berlin, Heidelberg (2019). DOI: https://doi.org/10.1007/978-3-662-53605-6_143-1
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* A Smirnov, E Vilchevskaya, I Sevostianov. Evaluation of the effective viscoelastic properties of a material containing multiple oblate inhomogeneities using fraction-exponential operators International Journal of Engineering Science 144, 103124 (2019), https://doi.org/10.1016/j.ijengsci.2019.103124
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* M Fomicheva, WH Müller, EN Vilchevskaya, N Bessonov. Funnel flow of a navier-stokes-fluid with potential applications to micropolar media. Facta Universitatis, Series: Mechanical Engineering 17 (2), 255-267 (2019) DOI: 10.22190/FUME190401029F
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* Polina Grigoreva, Elena N. Vilchevskaya, Wolfgang H. M¨uller. Stress and Diffusion Assisted Chemical Reaction Front Kinetics in Cylindrical Structures In Contributions to Advanced Dynamics and Continuum Mechanics. Eds. H.Altenbach, H.Irschik, V.Matveenko. pp.53-72, (2019) https://doi.org/10.1007/978-3-030-21251-3_4 53
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* W. Rickert,  Anna S. Morozova,  Wolfgang H. Müller, Elena N. Vilchevskaya,  Besim Ben-Nissan,  Innocent J. Macha. Drug Delivery from Polymer-Based Nanopharmaceuticals—Simulations of Selected Diffusion Processes. In Contributions to Advanced Dynamics and Continuum Mechanics. Eds. H.Altenbach, H.Irschik, V.Matveenko. pp.206-227, (2019). DOI: 10.1007/978-3-030-21251-3_12
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* Wilhelm Rickert, Elena N. Vilchevskaya, and Wolfgang H. Müller A note on Couette flow of micropolar fluids according to Eringen’s theory. Mathematics and Mechanics of Complex Systems. Vol. 7 (2019), No. 1, 25–50 DOI: 10.2140/memocs.2019.7.25
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* Mariia Fomicheva, Elena N.Vilchevskaya, Wolfgang H. Müller, Nikolay Bessonov. Milling matter in a crusher: modeling based on extended micropolar theory. April 2019 Continuum Mechanics and Thermodynamics 31, р. 1559-1570 DOI: 10.1007/s00161-019-00772-4
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* Aleksei A. Sokolov, Anton M. Krivtsov, Wolfgang H. Müller, and Elena N. Vilchevskaya. Change of entropy for the one-dimensional ballistic heat equation: Sinusoidal initial perturbation. Phys. Rev. E 99, Vol. 99, Iss. 4  – Published 4 April 2019. DOI: 10.1103/PhysRevE.99.042107
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* Ksenia P. Frolova, Elena N. Vilchevskaya, Svetlana M. Bauer, Wolfgang Mueller. Determination of the shear viscosity of the sclera. ZAMM Journal of applied mathematics and mechanics: Zeitschrift für angewandte Mathematik und Mechanik. March 2019. DOI: 10.1002/zamm.201800156
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* Ksenia Frolova, Elena Vilchevskaya, Vladimir Polyanskiy, Ekaterina Alekseeva. Modelling of a Hydrogen Saturated Layer Within the Micropolar Approach. In  Dr. Bilen Emek Abali, Prof. Dr. Holm Altenbach, Prof. Dr. Francesco dell'Isola, Prof. Dr. Victor A. Eremeyev, Prof. Dr. Andreas Öchsner (eds).  New Achievements in Continuum Mechanics and Thermodynamics, 2019, DOI: 10.1007/978-3-030-13307-8_9
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* Innocent J. Macha,  Besim Ben-Nissan,  Elena N. Vilchevskaya,  Anna S. Morozova, Bilen Emek Abali, Wolfgang H. Müller * and W. Rickert. Drug Delivery From Polymer-Based Nanopharmaceuticals—An Experimental Study Complemented by Simulations of Selected Diffusion Processes. Frontiers in Bioengineering and Biotechnology., 08 March 2019. doi.org/10.3389/fbioe.2019.00037
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* Anna S. Morozova, Elena N. Vilchevskaya, Wolfgang H. Müller, Nikolay M. Bessonov. Interrelation of Heat Propagation and Angular Velocity in Micropolar Media. In Holm Altenbach, Alexander Belyaev, Victor A. Eremeyev, Anton Krivtsov, Alexey V. Porubov (eds), Dynamical Processes in Generalized Continua and Structures. Springer, 2019 p.413-425 DOI: 10.1007/978-3-030-11665-1_23
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* E Vilchevskaya, V Levin, S Seyedkavoosi, I Sevostianov. Replacement relations for a viscoelastic material containing multiple inhomogeneities. International Journal of Engineering Science (2019) 136, p. 26-37
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* Григорьева П.М., Вильчевская Е.Н. Влияние выбора модели диффузии на кинетику химической реакции. Diagnostics, Resource and Mechanics of Materials and Structures. 2018. № 6. С. 59-82. DOI: 10.17804/2410-9908.2018.6.059-082
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* A. Seyedkavoosi , Elena Vilchevskaya , I. Sevostianov , Randomly Oriented Cracks in a Transversely Isotropic Material, International Journal of Solids and Structures № 150, (2018), р. 222–229, doi 10.1016/j.ijsolstr.2018.06.013
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* Elena N. Vilchevskaya, Wolfgang H. M¨uller. Some remarks on recent developments in micropolar continuum theory. Journal of Physics Conference Series 991(1):012079, April 2018. DOI10.1088/1742-6596/991/1/012079
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* Müller W.H., Vilchevskaya E.N. (2018) Micropolar Theory with Production of Rotational Inertia: A Rational Mechanics Approach. In: Altenbach H., Pouget J., Rousseau M., Collet B., Michelitsch T. (eds) Generalized Models and Non-classical Approaches in Complex Materials 1. Advanced Structured Materials, vol 89. Springer, Cham https://doi.org/10.1007/978-3-319-72440-9_30
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* Polina Grigoreva, Elena N. Vilchevskaya, Wolfgang H. M¨uller Modeling stress-affected chemical reactions in solids–A rational mechanics approach. In Advances in Mechanics of Microstructured Media and Structures, Francesco dell'Isola, Victor A. Eremeyev, Alexey V. Porubov (Eds). Series Advanced Structured Materials, Vol.87, Springer, Cham, 2018. 346p. ISBN 978-3-319-73694-5
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* Muller W.H., Vilchevskaya E.N. Micropolar media with structural transformations – Theory and an example problem. Materials Physics and Mechanics (2017) 32(3) p. 243-252
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* Elena A. Ivanova, Elena N. Vilchevskaya. Truesdell's  and Zhilin's approaches, Derivation of Constitutive equations.  Encyclopedia of Continuum Mechanics, edited by  Holm Altenbach and Andreas Öchsner.  (2017), doi:10.1007/978-3-662-53605-6_58-1
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* Muller W.H., Vilchevskaya E.N. Micropolar theory from the viewpoint of mesoscopic and mixture theories. Physical Mesomechanics, 2017, Vol. 20 No 3 pp 263-279, Физическая мезомеханика 20 3 2017 p.25-39
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* Muller W.H., Vilchevskaya E.N., Weiss W. Micropolar theory with production of rotational inertia: A farewell to material description. Physical Mesomechanics, 2017, Vol. 20 No 3 pp 250-262. Физическая мезомеханика 20 3 2017 p.13-24
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* Alexander B. Freidin, Igor K. Korolev, Sergey P. Aleshchenko, Elena N. Vilchevskaya. Chemical affinity tensor and chemical reaction front propagation: theory and FE-simulations. International Journal of Fracture, (2016), December 2016, Volume 202, Issue 2, pp 245–259, DOI 10.1007/s10704-016-0155-1
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* Elena A. Ivanova, Elena N. Vilchevskaya. Micropolar continuum in spatial description. Continuum Mechanics and Thermodynamics, (2016), 1-22 DOI  10.1007/s00161-016-0508-z
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* Elena A. Ivanova, Elena N. Vilchevskaya, Wolfgang H.Muller. Time Derivatives in Material and Spatial Description—What Are the Differences and Why Do They Concern Us? In book: Advanced Methods of Continuum Mechanics for Materials and Structures, (2016), pp.3-28
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* Wolfgang H.Muller, Elena N.Vilchevskaya. A Closed-Form Solution for a Linear Viscoelastic Self-gravitating Sphere. In book: Advanced Methods of Continuum Mechanics for Materials and Structures, (2016), pp.79-101
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* Olga V. Brazgina, Elena A. Ivanova, Elena N. Vilchevskaya.  Saturated porous continua in the frame of hybrid description. Continuum Mechanics and Thermodynamics (2016)
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* Elena Vilchevskaya, Igor Sevostianov. Overall thermal conductivity of a fiber reinforced composite with partially debonded inhomogeneities. International Journal of Engineering Science 98,01/2016, p 99-109
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* A. Freidin, N. Morozov, S. Petrenko, E. Vilchevskaya. Chemical reactions in spherically symmetric problems of mechanochemistry. Acta Mechanica (2015), 226 (9)
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* Elena Vilchevskaya, Igor Sevostianov.  Effective elastic properties of a particulate composite with transversely-isotropic matrix. International Journal of Engineering Science 94 (2015) 139–149
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* Е. Н. Вильчевская, А. Б. Фрейдин, Н. Ф. Морозов Кинетика фронта химической реакции в центрально_симметричных задачах механохимии. ДАН 461 N 5 с. 525-529
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* R. A. Filippov, A. B. Freidin, I. V. Hussainova, E. N. Vilchevskaya. Critical Radius of Zirconia Inclusions in Transformation Toughening of Ceramics. Physical Mesomechanics 01/2015; 18(17 2):55-64.
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*Р.А. Филиппов, А.Б. Фрейдин, И.В. Хусаинова, Е.Н. Вильчевская Критический радиус включений диоксида циркония в эффекте трансформационного упрочнения керамик. // Физ. мезомех. - 2014. - Т. 17. - N 2. - С. 55-64
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*Е.Н. Вильчевская, Р.А. Филиппов, А.Б. Фрейдин. О переходных слоях в композитных материалах как областях новой фазы. Известия РАН. Механика твердого тела. 2013. №1. С. 113-144.
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* Vilchevskaya E.N., Ivanova E.A., Altenbach H. Description of the Liquid-Gas Phase Transition in the Frame of Continuum Mechanics // Continuum Mechanics and Thermodynamics. 28 p. [http://link.springer.com/article/10.1007%2Fs00161-013-0298-5]
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* Ivanova, E., Vilchevskaya, E.: Description of thermal and micro-structural processes in generalized continua: Zhilin’s method and its modifications. In: Altenbach, H., Forest, S., Krivtsov, A.M. (eds.) Generalized Continua as Models for Materials, pp. 179–197. Springer, Berlin, Heidelberg (2013)
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* E.N. Vilchevskaya, A.B. Freidin. On kinetics of chemical reaction fronts in elastic solids. In: Surface Effects in Solid Mechanics. Advanced Structured Materials Vol. 30. P. 105-117. 2013 [http://link.springer.com/chapter/10.1007%2F978-3-642-35783-1_14]
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* A.B. Freidin, R.A. Filippov, I. Hussainova, E.N. Vilchevskaya. Transformation toughening in zirconia doped ceramics and cermets. Trans Tech Publications. 2013. Vol. 527. P. 68-73. [http://dx.doi.org/10.4028/www.scientific.net/KEM.527.68]
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* Вильчевская Е.Н., Филиппов Р.А., Фрейдин А.Б. О переходных слоях в композитных материалах как областях новой фазы. Известия РАН. Механика твердого тела. 2013. №1, стр. 128-159
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* E.N. Vilchevskaya, A.B. Freidin. On kinetics of chemical reaction fronts in elastic solids. In: Surface Effects in Solid Mechanics. Advanced Structured Materials Vol. 30. (2013) P. 105-117.
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* Freidin A.B., Filippov R.A., Hussainova I., Vilchevskaya E.N. Critical radius in the effect of transformation toughening of zirconia doped ceramics and cermets. Key Engineering Materials.Vol. 527 (2013) pp. 68-73 Trans Tech Publications, Switzerland. doi:10.4028 [http://www.scientific.net/KEM.527.68 www.scientific.net/KEM.527.68]
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* R.A. Filippov, A.B. Freidin, E.N. Vilchevskaya. On new phase intermediate layers in nanocomposites as a source of increasing the elastic moduli// Nanosystems: Physics, Chemistry, Mathematics. (2011)2(2), p. 107-118. [http://nanojournal.ifmo.ru/files/volume3/paper13.pdf]
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* Е.Н. Вильчевская, И.К. Королев, А.Б.Фрейдин. О фазовых превращениях в области неоднородности материала. Ч.2. Взаимодействие трещины с включением, претерпевающим фазовое превращение // Известия РАН. Механика твердого тела. (2011). № 5, стр. 32-42.
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* A.B. Freidin, E.N. Vilchevskaya. Multiple development of new phase inclusions in elastic solids // International Journal of Engineering Science (2009) 47 p. 240 № 260.  
 
* A.B. Freidin, E.N. Vilchevskaya. Multiple development of new phase inclusions in elastic solids // International Journal of Engineering Science (2009) 47 p. 240 № 260.  
  
 
* E.N.Vilchevskaya, A.B.Freidin. On phase transformations in a material inhomogeneity. P.1. A phase-transforming inclusion in a uniform external field// Izvestia RAN, Mekhanika Tverdogo Tela (2007) 5, p.208 - 228. (Mechanics of Solids 42, № 5, p.823-840)  
 
* E.N.Vilchevskaya, A.B.Freidin. On phase transformations in a material inhomogeneity. P.1. A phase-transforming inclusion in a uniform external field// Izvestia RAN, Mekhanika Tverdogo Tela (2007) 5, p.208 - 228. (Mechanics of Solids 42, № 5, p.823-840)  
  
* A.B.Freidin, Y.B.Fu, L.L.Sharipova, E.N.Vilchevskaya. Shperically symmetric two-phase deformations and phase transition zones // International Journal of Solids and Structures, (2006) 43, p.4484 - 4508.  
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* A.B.Freidin, Y.B.Fu, L.L.Sharipova, E.N.Vilchevskaya. Shperically symmetric two-phase deformations and phase transition zones // International Journal of Solids and Structures, (2006) 43, p.4484 - 4508. [http://www.sciencedirect.com/science/article/pii/S0020722508001572]
  
 
* A.B. Freidin, E.N. Vilchevskaya Multiple appearances of new phase ellipsoidal nuclei // Doklady Akademii Nauk, (2006) 411, № 6, p.770 - 774, (Doklady Physics v.51, 12, p.692-696).  
 
* A.B. Freidin, E.N. Vilchevskaya Multiple appearances of new phase ellipsoidal nuclei // Doklady Akademii Nauk, (2006) 411, № 6, p.770 - 774, (Doklady Physics v.51, 12, p.692-696).  
  
* A.B.Freidin, E.N.Vilchevskaya, L.L. Sharipova. Two-phase deformations of solids.Vol.22. Models in Continuum Mechanics. The lections of XVII session of the International school of models in continuum mechanics (Russia, Kazan), (2004), 162 - 200. (In Russian)  
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* A.B.Freidin, E.N.Vilchevskaya, L.L. Sharipova. Two-phase deformations of solids.Vol.22. Models in Continuum Mechanics. The lections of XVII session of the International school of models in continuum mechanics (Russia, Kazan), (2004), 162 - 200. (In Russian) [http://www.ipme.ru/ipme/labs/mmmm/pdf/Kazan.pdf]
  
 
* A.B.Freidin, E.N.Vilchevskaya, L.L Sharipova. Two-phase deformations within the framework of phase transition zones. Theoretical and Applied Mechanics (Belgrade), (2002), 28 № 29, p.145 - 167.
 
* A.B.Freidin, E.N.Vilchevskaya, L.L Sharipova. Two-phase deformations within the framework of phase transition zones. Theoretical and Applied Mechanics (Belgrade), (2002), 28 № 29, p.145 - 167.
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* Эл. почта: [[Файл: vilemail.gif]]
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[[Category: Личные страницы]]

Текущая версия на 13:04, 29 ноября 2019

Кафедра "Теоретическая механика" > Е.Н.Вильчевская


Елена Никитична Вильчевская

English version

Vilchevskaya Elena.jpg
Доцент кафедры
"Теоретическая механика" (ТМ)
Институт прикладной математики и механики (Физико-Механический факультет)
Санкт-Петербургский государственный политехнический университет (СПбГПУ).
Ученый секретарь
Институт проблем машиноведения Российской Академии наук (ИПМаш РАН).

Образование[править]

  • Магистр технических наук: СПбГПУ, ФМФ, МПУ

Научные интересы[править]

  • Механохимия.
  • Структурные превращения.
  • Композиционные материалы.
  • Термодинамика с позиций механики сплошной среды.

Научные проекты[править]

  • Сандийский проект.

Преподавание[править]

  • Лекционный курс: "Теоретическая механика".
  • Лекционный курс: "Тензорная алгебра и тензорный анализ" (см. пособие).
  • Лекционный курс: "Термодинамика с позиций механики сплошной среды".
  • Лекционный курс: "Механика сплошных сред".
  • Лекционный курс: "Микромеханика неоднородных сред".

Учебные пособия[править]

  • Е.Н. Вильчевская. Тензорная алгебра и тезорный анализ: учеб. пособие. - СПб.: ПОЛИТЕХ-ПРЕСС, 2019. -- 128 c.

(Скачать pdf: 6.8M)

Избранные публикации[править]

  • E Vilchevskaya, I Sevostianov. Effect of pore shapes on the overall electrical conductivity of cathode material in Li-ion batteries. International Journal of Engineering Science 146, 103187 (2020) https://doi.org/10.1016/j.ijengsci.2019.103187
  • E Vilchevskaya. (2019) On Micropolar Theory with Inertia Production. In: Altenbach H., Öchsner A. (eds) State of the Art and Future Trends in Material Modeling. Advanced Structured Materials, vol 100. Springer, Cham. pp. 421-442, https://doi.org/10.1007/978-3-030-30355-6_18
  • Alexander B. Freidin, Elena N. Vilchevskaya. Chemical Affinity Tensor in Coupled Problems of Mechanochemistry. In: Altenbach H., Öchsner A. (eds) Encyclopedia of Continuum Mechanics. Springer, Berlin, Heidelberg (2019). DOI: https://doi.org/10.1007/978-3-662-53605-6_143-1
  • A Smirnov, E Vilchevskaya, I Sevostianov. Evaluation of the effective viscoelastic properties of a material containing multiple oblate inhomogeneities using fraction-exponential operators International Journal of Engineering Science 144, 103124 (2019), https://doi.org/10.1016/j.ijengsci.2019.103124
  • M Fomicheva, WH Müller, EN Vilchevskaya, N Bessonov. Funnel flow of a navier-stokes-fluid with potential applications to micropolar media. Facta Universitatis, Series: Mechanical Engineering 17 (2), 255-267 (2019) DOI: 10.22190/FUME190401029F
  • Polina Grigoreva, Elena N. Vilchevskaya, Wolfgang H. M¨uller. Stress and Diffusion Assisted Chemical Reaction Front Kinetics in Cylindrical Structures In Contributions to Advanced Dynamics and Continuum Mechanics. Eds. H.Altenbach, H.Irschik, V.Matveenko. pp.53-72, (2019) https://doi.org/10.1007/978-3-030-21251-3_4 53
  • W. Rickert, Anna S. Morozova, Wolfgang H. Müller, Elena N. Vilchevskaya, Besim Ben-Nissan, Innocent J. Macha. Drug Delivery from Polymer-Based Nanopharmaceuticals—Simulations of Selected Diffusion Processes. In Contributions to Advanced Dynamics and Continuum Mechanics. Eds. H.Altenbach, H.Irschik, V.Matveenko. pp.206-227, (2019). DOI: 10.1007/978-3-030-21251-3_12
  • Wilhelm Rickert, Elena N. Vilchevskaya, and Wolfgang H. Müller A note on Couette flow of micropolar fluids according to Eringen’s theory. Mathematics and Mechanics of Complex Systems. Vol. 7 (2019), No. 1, 25–50 DOI: 10.2140/memocs.2019.7.25
  • Mariia Fomicheva, Elena N.Vilchevskaya, Wolfgang H. Müller, Nikolay Bessonov. Milling matter in a crusher: modeling based on extended micropolar theory. April 2019 Continuum Mechanics and Thermodynamics 31, р. 1559-1570 DOI: 10.1007/s00161-019-00772-4
  • Aleksei A. Sokolov, Anton M. Krivtsov, Wolfgang H. Müller, and Elena N. Vilchevskaya. Change of entropy for the one-dimensional ballistic heat equation: Sinusoidal initial perturbation. Phys. Rev. E 99, Vol. 99, Iss. 4 – Published 4 April 2019. DOI: 10.1103/PhysRevE.99.042107
  • Ksenia P. Frolova, Elena N. Vilchevskaya, Svetlana M. Bauer, Wolfgang Mueller. Determination of the shear viscosity of the sclera. ZAMM Journal of applied mathematics and mechanics: Zeitschrift für angewandte Mathematik und Mechanik. March 2019. DOI: 10.1002/zamm.201800156
  • Ksenia Frolova, Elena Vilchevskaya, Vladimir Polyanskiy, Ekaterina Alekseeva. Modelling of a Hydrogen Saturated Layer Within the Micropolar Approach. In Dr. Bilen Emek Abali, Prof. Dr. Holm Altenbach, Prof. Dr. Francesco dell'Isola, Prof. Dr. Victor A. Eremeyev, Prof. Dr. Andreas Öchsner (eds). New Achievements in Continuum Mechanics and Thermodynamics, 2019, DOI: 10.1007/978-3-030-13307-8_9
  • Innocent J. Macha, Besim Ben-Nissan, Elena N. Vilchevskaya, Anna S. Morozova, Bilen Emek Abali, Wolfgang H. Müller * and W. Rickert. Drug Delivery From Polymer-Based Nanopharmaceuticals—An Experimental Study Complemented by Simulations of Selected Diffusion Processes. Frontiers in Bioengineering and Biotechnology., 08 March 2019. doi.org/10.3389/fbioe.2019.00037
  • Anna S. Morozova, Elena N. Vilchevskaya, Wolfgang H. Müller, Nikolay M. Bessonov. Interrelation of Heat Propagation and Angular Velocity in Micropolar Media. In Holm Altenbach, Alexander Belyaev, Victor A. Eremeyev, Anton Krivtsov, Alexey V. Porubov (eds), Dynamical Processes in Generalized Continua and Structures. Springer, 2019 p.413-425 DOI: 10.1007/978-3-030-11665-1_23
  • E Vilchevskaya, V Levin, S Seyedkavoosi, I Sevostianov. Replacement relations for a viscoelastic material containing multiple inhomogeneities. International Journal of Engineering Science (2019) 136, p. 26-37
  • Григорьева П.М., Вильчевская Е.Н. Влияние выбора модели диффузии на кинетику химической реакции. Diagnostics, Resource and Mechanics of Materials and Structures. 2018. № 6. С. 59-82. DOI: 10.17804/2410-9908.2018.6.059-082
  • A. Seyedkavoosi , Elena Vilchevskaya , I. Sevostianov , Randomly Oriented Cracks in a Transversely Isotropic Material, International Journal of Solids and Structures № 150, (2018), р. 222–229, doi 10.1016/j.ijsolstr.2018.06.013
  • Elena N. Vilchevskaya, Wolfgang H. M¨uller. Some remarks on recent developments in micropolar continuum theory. Journal of Physics Conference Series 991(1):012079, April 2018. DOI10.1088/1742-6596/991/1/012079
  • Müller W.H., Vilchevskaya E.N. (2018) Micropolar Theory with Production of Rotational Inertia: A Rational Mechanics Approach. In: Altenbach H., Pouget J., Rousseau M., Collet B., Michelitsch T. (eds) Generalized Models and Non-classical Approaches in Complex Materials 1. Advanced Structured Materials, vol 89. Springer, Cham https://doi.org/10.1007/978-3-319-72440-9_30
  • Polina Grigoreva, Elena N. Vilchevskaya, Wolfgang H. M¨uller Modeling stress-affected chemical reactions in solids–A rational mechanics approach. In Advances in Mechanics of Microstructured Media and Structures, Francesco dell'Isola, Victor A. Eremeyev, Alexey V. Porubov (Eds). Series Advanced Structured Materials, Vol.87, Springer, Cham, 2018. 346p. ISBN 978-3-319-73694-5
  • Muller W.H., Vilchevskaya E.N. Micropolar media with structural transformations – Theory and an example problem. Materials Physics and Mechanics (2017) 32(3) p. 243-252
  • Elena A. Ivanova, Elena N. Vilchevskaya. Truesdell's and Zhilin's approaches, Derivation of Constitutive equations. Encyclopedia of Continuum Mechanics, edited by Holm Altenbach and Andreas Öchsner. (2017), doi:10.1007/978-3-662-53605-6_58-1
  • Muller W.H., Vilchevskaya E.N. Micropolar theory from the viewpoint of mesoscopic and mixture theories. Physical Mesomechanics, 2017, Vol. 20 No 3 pp 263-279, Физическая мезомеханика 20 3 2017 p.25-39
  • Muller W.H., Vilchevskaya E.N., Weiss W. Micropolar theory with production of rotational inertia: A farewell to material description. Physical Mesomechanics, 2017, Vol. 20 No 3 pp 250-262. Физическая мезомеханика 20 3 2017 p.13-24
  • Alexander B. Freidin, Igor K. Korolev, Sergey P. Aleshchenko, Elena N. Vilchevskaya. Chemical affinity tensor and chemical reaction front propagation: theory and FE-simulations. International Journal of Fracture, (2016), December 2016, Volume 202, Issue 2, pp 245–259, DOI 10.1007/s10704-016-0155-1
  • Elena A. Ivanova, Elena N. Vilchevskaya. Micropolar continuum in spatial description. Continuum Mechanics and Thermodynamics, (2016), 1-22 DOI 10.1007/s00161-016-0508-z
  • Elena A. Ivanova, Elena N. Vilchevskaya, Wolfgang H.Muller. Time Derivatives in Material and Spatial Description—What Are the Differences and Why Do They Concern Us? In book: Advanced Methods of Continuum Mechanics for Materials and Structures, (2016), pp.3-28
  • Wolfgang H.Muller, Elena N.Vilchevskaya. A Closed-Form Solution for a Linear Viscoelastic Self-gravitating Sphere. In book: Advanced Methods of Continuum Mechanics for Materials and Structures, (2016), pp.79-101
  • Olga V. Brazgina, Elena A. Ivanova, Elena N. Vilchevskaya. Saturated porous continua in the frame of hybrid description. Continuum Mechanics and Thermodynamics (2016)
  • Elena Vilchevskaya, Igor Sevostianov. Overall thermal conductivity of a fiber reinforced composite with partially debonded inhomogeneities. International Journal of Engineering Science 98,01/2016, p 99-109
  • A. Freidin, N. Morozov, S. Petrenko, E. Vilchevskaya. Chemical reactions in spherically symmetric problems of mechanochemistry. Acta Mechanica (2015), 226 (9)
  • Elena Vilchevskaya, Igor Sevostianov. Effective elastic properties of a particulate composite with transversely-isotropic matrix. International Journal of Engineering Science 94 (2015) 139–149
  • Е. Н. Вильчевская, А. Б. Фрейдин, Н. Ф. Морозов Кинетика фронта химической реакции в центрально_симметричных задачах механохимии. ДАН 461 N 5 с. 525-529
  • R. A. Filippov, A. B. Freidin, I. V. Hussainova, E. N. Vilchevskaya. Critical Radius of Zirconia Inclusions in Transformation Toughening of Ceramics. Physical Mesomechanics 01/2015; 18(17 2):55-64.
  • Р.А. Филиппов, А.Б. Фрейдин, И.В. Хусаинова, Е.Н. Вильчевская Критический радиус включений диоксида циркония в эффекте трансформационного упрочнения керамик. // Физ. мезомех. - 2014. - Т. 17. - N 2. - С. 55-64
  • Е.Н. Вильчевская, Р.А. Филиппов, А.Б. Фрейдин. О переходных слоях в композитных материалах как областях новой фазы. Известия РАН. Механика твердого тела. 2013. №1. С. 113-144.
  • Vilchevskaya E.N., Ivanova E.A., Altenbach H. Description of the Liquid-Gas Phase Transition in the Frame of Continuum Mechanics // Continuum Mechanics and Thermodynamics. 28 p. [1]
  • Ivanova, E., Vilchevskaya, E.: Description of thermal and micro-structural processes in generalized continua: Zhilin’s method and its modifications. In: Altenbach, H., Forest, S., Krivtsov, A.M. (eds.) Generalized Continua as Models for Materials, pp. 179–197. Springer, Berlin, Heidelberg (2013)
  • E.N. Vilchevskaya, A.B. Freidin. On kinetics of chemical reaction fronts in elastic solids. In: Surface Effects in Solid Mechanics. Advanced Structured Materials Vol. 30. P. 105-117. 2013 [2]
  • A.B. Freidin, R.A. Filippov, I. Hussainova, E.N. Vilchevskaya. Transformation toughening in zirconia doped ceramics and cermets. Trans Tech Publications. 2013. Vol. 527. P. 68-73. [3]
  • Вильчевская Е.Н., Филиппов Р.А., Фрейдин А.Б. О переходных слоях в композитных материалах как областях новой фазы. Известия РАН. Механика твердого тела. 2013. №1, стр. 128-159
  • E.N. Vilchevskaya, A.B. Freidin. On kinetics of chemical reaction fronts in elastic solids. In: Surface Effects in Solid Mechanics. Advanced Structured Materials Vol. 30. (2013) P. 105-117.
  • Freidin A.B., Filippov R.A., Hussainova I., Vilchevskaya E.N. Critical radius in the effect of transformation toughening of zirconia doped ceramics and cermets. Key Engineering Materials.Vol. 527 (2013) pp. 68-73 Trans Tech Publications, Switzerland. doi:10.4028 www.scientific.net/KEM.527.68
  • R.A. Filippov, A.B. Freidin, E.N. Vilchevskaya. On new phase intermediate layers in nanocomposites as a source of increasing the elastic moduli// Nanosystems: Physics, Chemistry, Mathematics. (2011)2(2), p. 107-118. [4]
  • Е.Н. Вильчевская, И.К. Королев, А.Б.Фрейдин. О фазовых превращениях в области неоднородности материала. Ч.2. Взаимодействие трещины с включением, претерпевающим фазовое превращение // Известия РАН. Механика твердого тела. (2011). № 5, стр. 32-42.
  • A.B. Freidin, E.N. Vilchevskaya. Multiple development of new phase inclusions in elastic solids // International Journal of Engineering Science (2009) 47 p. 240 № 260.
  • E.N.Vilchevskaya, A.B.Freidin. On phase transformations in a material inhomogeneity. P.1. A phase-transforming inclusion in a uniform external field// Izvestia RAN, Mekhanika Tverdogo Tela (2007) 5, p.208 - 228. (Mechanics of Solids 42, № 5, p.823-840)
  • A.B.Freidin, Y.B.Fu, L.L.Sharipova, E.N.Vilchevskaya. Shperically symmetric two-phase deformations and phase transition zones // International Journal of Solids and Structures, (2006) 43, p.4484 - 4508. [5]
  • A.B. Freidin, E.N. Vilchevskaya Multiple appearances of new phase ellipsoidal nuclei // Doklady Akademii Nauk, (2006) 411, № 6, p.770 - 774, (Doklady Physics v.51, 12, p.692-696).
  • A.B.Freidin, E.N.Vilchevskaya, L.L. Sharipova. Two-phase deformations of solids.Vol.22. Models in Continuum Mechanics. The lections of XVII session of the International school of models in continuum mechanics (Russia, Kazan), (2004), 162 - 200. (In Russian) [6]
  • A.B.Freidin, E.N.Vilchevskaya, L.L Sharipova. Two-phase deformations within the framework of phase transition zones. Theoretical and Applied Mechanics (Belgrade), (2002), 28 № 29, p.145 - 167.

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