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A Journal of Russian Academy of Sciences		 Founded
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IssuesArchive of Issues2013-4pp.450-457

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A.G. Bagdoev and V.N. Kukudzhanov, "Kinematic Nonlinear Wave Approaches to Describing Stochastic Processes in Semiconductors, Traffic, and Micropore Motion in Fracture Mechanics," Mech. Solids. 48 (4), 450-457 (2013)
Year 2013 Volume 48 Number 4 Pages 450-457
DOI 10.3103/S0025654413040134
Title Kinematic Nonlinear Wave Approaches to Describing Stochastic Processes in Semiconductors, Traffic, and Micropore Motion in Fracture Mechanics
Author(s) A.G. Bagdoev (Institute of Mechanics, National Academy of Sciences of the Republic of Armenia, pr-t Marshala Bagramyana 24B, Erevan, 375019 Republic of Armenia)
V.N. Kukudzhanov (Ishlinsky Institute for Problems in Mechanics, Russian Academy of Sciences, pr-t Vernadskogo 101, str. 1, Moscow, 119526 Russia, kukudz@ipmnet.ru)
Abstract Kinematic nonlinear wave models supplemented with empirical dependencies between the basic variables are used to study stochastic spatial phase transition processes in the case of Gunn instability in semiconductors, in traffic with collapses at crossroads, and in micropore motion with macrorupture formation. All these processes have a common mechanism and are similar in the case of the same dependence between the constitutive variables characterizing these physically different processes.
Keywords kinematic nonlinear waves, catastrophic phase transitions, Gunn instability in semiconductors, traffic problem, fracture, damage with phase transitions in mechanics, similarity
References
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2.  A. G. Bagdoev and Yu. S. Safaryan, in Problems of Mechanics of Deformable Body. Collection of Papers Dedicated to Academician of NAS Armenia S. A. Ambartsumyan on the Occasion of His 90th Birth Day (Erevan, 2012), pp. 101-120.
3.  K. Nakamura, "Statistical Dynamics of the Gunn Instability near Threshold," J. Phys. Soc. Japan 38 (1), 46-50 (1975).
4.  M. J. Lighthill and G. B. Whitham, "On Kinematic Waves. II. A Theory of Traffic Flow on Long Crowded Roads," Proc. Roy. Soc. London. Ser. A 229 (1178), 317-345 (1955).
5.  V. N. Kukudzhanov, Computer Simulation of Deformation, Damage, and Fracture of Nonelastic Materials and Structures, Teaching manual (MFTI, Moscow, 2008) [in Russian].
6.  L. R. Botvina, Kinetics of Fracture of Structural Materials (Nauka, Moscow, 1989) [in Russian].
7.  A. G. Bagdoev, G. Manukyan, and Yu. S. Safaryan, Study of Point and Spatial Processes by Methods of Wave Dynamics: Investigation of Linear and Nonlinear Processes (LAP Lambert Academic Publishing, 2012).
8.  A. G. Bagdoev, "Actual Problems of Continuum Mechanics". Proc. Intern. Conf. Dedicated to Academician N. Kh. Aratyunyan on the Occasion of His 100th Birth Day (2012), pp. 109-112.
9.  A. G. Bagdoev, V. I. Erofeev, and A. V. Shekoyan, Linear and Nonlinear Waves in Dispersive Continua (Fizmatlit, Moscow, 2009) [in Russian].
10.  V. I. Arnold, Catastrophe Theory (Nauka, Moscow, 1990) [in Russian].
11.  V. N. Kukudzhanov, "Micromechanical Model of Fracture of an Inelastic Material and Its Application to the Investigation of Strain Localization," Izv. Akad. Nauk. Mekh. Tverd. Tela, No. 5, 72-87 (1999) [Mech. Solids (Engl. Transl.) 34 (5), 58-69 (1999)].
12.  A. L. Gurson, "Continuum Theory of Ductile Rupture by Void Nucleation and Growth. Part I - Yield Criteria and Flow Rules for Porous Ductile Media," Trans. ASME. J. Engng Mater. Tech. 99 (1), 2-15 (1977).
Received 04 March 2013
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