Jeremiah Rushchitsky

CURRICULUM VITAE Prof. D.Sc. Jeremiah J. Rushchitsky Head of the Department of Rheology S.P.Timoshenko Institute of Mechanics of the National Academy of Sciences of Ukraine Nesterov str. 3, Kyiv, 03680, Ukraine tel.: +380-44-456-2089; fax: +380-44-456-0319 e-mail: rushch@inmech.kiev.ua • Personal Data - Born November 6, 1941, Ukraine; Nationality: Ukrainian; Citizenship: Ukraine - Languages: Ukrainian, Russian, Polish, English, German • Education - Secondary school, 1948-1958, graduated with silver medal - Lviv State University, 1958-1963, graduated with distinction in 1963 - Institute of Mechanics, Kyiv, postgraduate study, 1965-1968 • Academic Degrees - Dipl.-Eng. (Diploma with Distinction), 1963 Candidate of (Physical-Mathematical) Sciences (PhD), 1968, conferred by Taras Shevchenko Kyiv University Doctor of (Physical-Mathematical) Sciences (DSc),1982, conferred by Mikhail Lomonosov Moscow University Professor, 1987, Physical-Mathematical Faculty, Nation.Tech.University "Kyiv Polytechnic Institute" - Member of the National Academy of Sciences of Ukraine, 2018 • Employment 1965-present, postgraduate student, junior scientist, senior scientist, head of laboratory, head of department, Institute of Mechanics; 1987-present, professor, Chair of Mathematical Analysis, Physical-Mathematical Faculty, National Technical University of Ukraine, Kyiv; 1994, visiting professor, University of Erlangen-Nürnberg, Germany; 2002- 2006, 2008 visiting professor, University of Rome “La Sapienza”, Italy 2003, 2004, 2007- 2010 visiting professor, University of Aberdeen, Scotland, UK2004- 2006, 2008 visiting professor, University of Salerno, Italy • Publications - Author of 560 publications, including: 12 monographs on waves and composite materials and 5 university text-books on waves in materials, viscoelasticity, wavelet analysis, frac- tal analysis; about 260 journal papers, 6 State Standards, and so on; Last books: Cattani C., Rushchitsky J.J. Wavelet and wave analysis as applied to materials with micro- or nanostructure. Singapore-London: World Scientific, 2007. – 466 p.; Rushchitsky J.J. Theory of waves in materials. Copenhagen: Ventus Publishing ApS, 2011– 270 p. (free text-book in BookBooN.com, to present downloaded 600,000 times); Guz A.N., Rushchitsky J.J. Short introduction to mechanics of nanocomposites. – Rosemead, CA: Scientific & Academic Publishing, 2013. – 280 p. Rushchitsky J.J. Nonlinear Elastic Waves in Materials. Heidelberg:Springer,2014.– 454p. (to present chap-ters of this book downloaded 14,000 times; at present is translated into Chinese and published 2018 by Beijing Institute of Technology Press) Rushchitsky J.J. Foundations of mechanics of materials. Copenhagen: Ventus Publishing ApS, 2021. – 270 p. (free text- book in BookBooN.com) Chapters in books of last years by incitation of editors of books: 1. Guz I.A., Rushchitsky J.J., Guz A.N. Chapter 24, Mechanical Models in Nanomaterials.Vol.1.Handbook of Nanophysics Principles and Methods. In 7 vols. Ed. K.D. Sattler. Boca Raton: CRC Press, 2010. - P. 24.1 – 24.18. 2. Rushchitsky J.J. Cylindrical Surface Wave: Revisiting the Classical Biot’s Problem, Chapter in the book “Seismic Waves – Probing Earth System” Eds. Ono D. and Monoto H. - Singapore-London: InTechOpen , 2019. 300 р. P.201-220. 3. Rushchitsky J.J. Plane Nonlinear Elastic Waves: Approximate Approaches to Analysis of Evolution, Chapter in the book “Understanding Plane Waves” Ed. William A.Cooper -London: Nova Science Publishers, 2019. 320 р. P.58-80. 4. Rushchitsky J.J. Elastic and Inelastic Stress Waves - letter E // Encyclopedia of Continuum Mechanics. Eds. H.Alten bach, K.Oster. Berlin,Springer,2018-2020, - P.100-118. 5. Rushchitsky J., Kendzera O., Semenova Y. On the Seismic Waves Propagating in the Layered Earth Stratum, Chapter 21 in the book “Building knowledge for geohazard assessment and management in the Caucasus and other orogenic regions”. NATO Science for Peace and Security Series C: Environmental Security. Eds. Mariotto P., Bonali F., Tsereteli N. Berlin: Springer, 2020. 475 p. P.410-429. 6. Kendzera O., Rushchitsky J., Semenova Y. Rheological properties of soils in assessing the seismic hazard of the South Ukrainian nuclear power plant. Chapter 13 in the book “Building knowledge for geohazard assessment and management in the Caucasus and other orogenic regions”. NATO Science for Peace and Security Series C: Environmental Security. Eds. Mariotto P., Bonali F., Tsereteli N. Berlin: Springer, 2020. 412 p. P.240-259. 7. Rushchitsky J. Elasticity of Auxetic Materials. Chapter 11 in the book "Elasticity of Materials", Eds. Evingür G.A., Pekcan O., London. IntechOpen, 2021. – 234 p. 8. 8. Kendzera O., Rushchitsky J., Semenova Yu. Simple way of allowance for rheologic properties of layered earth stratum in study of seismic waves. Chapter 5 in the book: Latest Techniques and Advances in Seismic Waves Research. New York, Nova Science Publishers, Inc., 2021. – 246 p. 9. Rushchitsky J.J. Transition from the Classical Biot Problem on Cylindrical Wave to the Case of Transversely Isotropic Medium. Chapter 15 in the book: Modern Problems of Machanics. Berlin, Springer, 2023 (in press). 10. Rushchitsky J., Yurchuk V. Comparison of Evolution of Five Types of Elastic Waves (harmonic, Gauss, Whittaker, MacDonald, Friedlander Initial Profiles). Chapter 18 in the book: Advanced Problems of Mechanics. Berlin, Springer, 2023 (in press). Last key journal publications: 1.Revisiting displacement functions in three-dimensional elasticity of inhomogeneous me dia. Int.J.Solids&Struct., 2009, co-author Kashtalyan M. 2. Fragments of the theory of nanotransi stors: self-switching of the plane transverse hypersound wave in composite materials. Int.Appl. Mech., 2009. 3. On constructing the foundations of mechanics of nanocomposites. Int. Appl.Mech., 2011, co-author Guz A.N. 4. Certain class of nonlinear hyperelastic waves: classical and novel models, wave equations, wave effects. Int J.Appl.Math. & Mech.,2013. 5. Some fundamental aspects of mechanics of nanocomposite materials, J. of Nanotechnologies, special issue “Nanocomposites 2013”, 2013, co-author Guz A.N. 6. On features of continuum description of nanocomposite material. J.of Research in Nanotechnolo gy, 2014, co-author Guz A.N. 7. Auxetic linearly elastic isotropic materials: restrictions on elastic moduli, Arch. of Appl. Mech., 2015. 8. Nonlinearity of elastic deformations and moderateness of strains as a factor explaining the auxeticity of materials. Int.Appl.Mech., 2019,N6. 9. Effect of the Third Approximation in the Analysis of the Evolution of a Nonlinear Elastic P-wave. Int.Appl.Mech., 2020, 56, N5 (part 1), N6 (part 2). co-author Yurchuk V.M. 10. Scenarios of Evolution of Some Types of Simple Waves in Nonlinear Elastic Materials. Archive of Appl. Mech., 2021, 91, N7. 11. Distortion of Nonlinear Solitary Plane Wave with Friedlander’s Profile. Int.Appl. Mech., 2022, 58, N5. co-author Yurchuk V.M. In scientific journals of the most prestigious academies of sciences - Comptes Rendus de l'Academie des Sciences, Serie Mecanique; Philosophical Transactions of the Royal Society A: Мathematical, Physical and Engineering Sciences; Atti dell'Accademia Peloritana dei Pericolanti, Classe di Scienze Fisiche, Matematiche e Naturali - French, English and Ita-lian, respectively. In leading world scientific journal of the highest rating - Applied Mechanics Reviews, Composites. Part A: Applied Science and Manufacturing, Composites Sciences and Technology, Int. J. of Solids and Structures, Zeitschrift für Ange wandte Mathematik und Mechanik - ZAMM, Int. Applied Mechanics, Computer Modeling in Engineering and Sciences, Int. J. of Nonlinear Sciences and Physical Simulation, Mechanics of Composite Materials, Mathematical and Computer Modelling in Dynamical Systems, J. of Research in Nanotechnology, Int. J. of Applied Mathematics Mechanics, Archive of Applied Mechanics, J. of Nanotechnologies. Hirsch-index 29, Egghe-index 47, index i10 77. • Conferences Presentations and lectures delivered at more than 160 international congresses, conferences, symposia and seminars (Australia, Austria, Azerbaijan, Armenia, Belarus, Bulgaria, Canada, Chile, China, Czech Republic, Denmark, Estonia, France, Georgia, Germany, Great Britain, Greece, Hungary, Italy, Israel, Kyrgyzstan, Lat-via, Poland, Russia, Serbia, Slovakia, Spain, Sweden, Switzerland, Turkey, Ukraine, USA, Uzbekistan), plenary lectures and membership in scien tific and program committees of many international symposia. Last conferences with the invited lectures: 4.EURO MECH Colloquium 574 “Recent trends in modeling of moving loads on elastic structures” April 14-18, 2015 Eskišehir, Turkey. 5.China-Ukraine Sci.Forum of Science&Technology, July 3-11, 2016 Harbin-Hohhot, China. 6.7th Int.Conf.“Aux etics and other materials and models with "negative" characteristics” September 12-16,2016 Gdansk, Poland. 7. China (Dongguan) Int.Science and Technology Cooperation Week, December 7-10, 2017, Shandung, China. 8. Western Returned Scholars Association Symposium, October 25-30,2018, Zhengzhou, China. 9. 3rd Global Summit on Nanotechnology, September 17-21, 2019, Barcelona, Spain. 10.NATO Advanced Research Workshop G5566 Georgia,Tbilisi, October 8-10 2019. • Cooperative scientific activities - Scientific missions within the framework of common projects (Poland, IPPT –1973,1978,1986,1993), (DDR, Inst Mech, Dresden University, Magdeburg Techn. Hochschule, Chemnitz University etc-1986, 1988), (Czech Rep, UTM, UTAM – 1987,1989-1991), (Slovak Rep, IMM – 1989-1992), (Bulgaria, IMBM – 1988), (Hungary, Budapest Techn University – 1989), (Germany, Erlangen-Nürnberg Univer sity, 1994), (Italy, Universita di Roma “La Sapienza”, Universita di Salerno, 2004-2006,2008), (Scot- land, University of Aberdeen, 2003-2010), (Turkey, Yieldiz University, 2011). - Active cooperative work with Universita di Roma “La Sapienza” and Universita di Salerno (Italy) and the Centre for Micro and Nanomechanics at University of Aberdeen (Scotland). • Advanced teaching activities - 12 candidate dissertations (PhD) • Awards, prizes, honorary academic status, scientific grants 3 USSR government medals (1965, 1970, 1980); State Prize of Ukraine in Science, 2015;Award of Parliament of Ukraine, 2018; Medal of the National Academy of Sciences of Ukraine “For Professional Achievements”, 2008;Medal of the National Academy of Sciences of Ukraine “To Centenary of the Academy”, 2018; Dinnik A.N. Prize of the National Academy of Sciences of Ukraine, 2005; Glushkov V.M. Prize of the National Academy of Sciences of Ukraine, 2015; Honorary Professor, Engineering School, University of Aberdeen, Scotland, UK, 2011 Many tens of international scienti fic grants. From Soros and American Physical Society grants to the Royal Society of London and Royal Society of Edin burg grants. • Memberships ASME Int (American Society of Mechanical Engineers), 1998; GAMM (Gesellschaft für angewandte Mathematik und Mechanik), 1993, official representative of Ukraine; EUROMECH (European Mechanical Society), 1995; American Nano Society, 2011; New York Academy of Sciences, 1995; Ukrainian Physical Society, 1994; Ukrainian Society of Mechanical Engineers, 1993; National Committee of Ukraine of Theoretical and Applied Mechanics, 1993; Secretary of the National Committee of Ukraine of Theoretical and Applied Mechanics, 2000; Member of the Editorial Boards of international scientific journals: Int. Appl. Mech. (Kyiv-New York, Sprin-ger Group); Int. J. Appl. Math. and Mech. (Cardiff-Hong Kong, Research India Publications); Int. J. Mech. and Solids (New Mexico, Research India Publications); Nonlinear Dynamics and Systems Theory (Kyiv, InforMath Publishing Group); Waves, Wavelets, Fractals: Advanced Analysis (Rome-Warsaw, De Gruyter). • Research Interests, Main Scientific Results Mechanics of nano- and microcomposite materials, linear and nonlinear waves in materials with internal stru-cture, viscoelasticity, wavelet analysis as applied to wave propagation. In the area of hereditary (viscoelastic) media: the series of works on applicability of the Volterra's correspond dence principle to the contact problems of viscoelasticity, on uniqueness and existence theorems is written; the textbook for universities is published. In the area of multiphase media(composite materials): the new scientific direction is developed– the microstructu ral theory of elastic, viscoelastic, and piezoelastic mixtures. Here a number of basic problems of statics, dynamics and stability is solved and the theory of elastic mixtures is constructed like the classical theory of elasticity. The microstructu ral and nonlinear physical phenomena and effects are detected and described. These results are included into four scien tific monographs (solo and with co-authors) and into a few invited author's reviews in the journal “International Applied Mechanics”. In the area of theory of waves: some new nonlinear models for waves in materials are proposed and analyzed, a number of new nonlinear wave effects in materials are described - new harmonics generation, wave evolution, triplets and quadruplets generation, energy pumping etc. A theoretical basis for the working on hyperesound waves nanotransistors is created. New waves are detected and new wave classification is proposed. The invi- ted review in the best world review journal "Applied Mechanics Reviews" (USA) is published. a few mono-graphs are published. In the area of applied theory of wavelets: a number of textbooks jointly with professors of Kyiv Polytechnic Institute were published. The new notion of elastic wavelets is proposed and the way of application of elastic wavelets in problems of propagation of solitary elastic waves in composite materials is shown. The monograph with Professor Cattani C. (Italy) is published. In the area of composite materials: the fundamental problems of micro and nanomechanics of composite mate rials are investigated. On examples of standard fibrous and nonstandard (whiskerized microfibers or bristled nanofibers and nanogranules) fibrous and granular composites, the features of continuum structural models of mechanics are shown. The new structural models were developed as applied to micro- and nanolevel materials. In the area of auxetic materials: the new concept of auxetic phenomenon is proposed and developed based on the nonlinear elastic models.