Mechanics of Solids (about journal) Mechanics of Solids
A Journal of Russian Academy of Sciences		 Founded
in January 1966
Issued 6 times a year
Print ISSN 0025-6544
Online ISSN 1934-7936
Russian Russian English English About Journal | Issues | Guidelines | Editorial Board | Contact Us
 
IssuesArchive of Issues2010-4pp.501-518

Archive of Issues

Total articles in the database: 11223
In Russian (Èçâ. ÐÀÍ. ÌÒÒ): 8011
In English (Mech. Solids): 3212
<< Previous article | Volume 45, Issue 4 / 2010 | Next article >>
V.E. Panin, Yu.V. Grinyaev, and V.E. Egorushkin, "Foundations of Physical Mesomechanics of Structurally Inhomogeneous Media," Mech. Solids. 45 (4), 501-518 (2010)
Year 2010 Volume 45 Number 4 Pages 501-518
DOI 10.3103/S0025654410040023
Title Foundations of Physical Mesomechanics of Structurally Inhomogeneous Media
Author(s) V.E. Panin (Institute of Strength Physics and Materials Science, Siberian Branch of Russian Academy of Sciences, Akademicheskii pr-t 2/4, Tomsk, 634021 Russia, paninve@ispms.tsc.ru)
Yu.V. Grinyaev (Institute of Strength Physics and Materials Science, Siberian Branch of Russian Academy of Sciences, Akademicheskii pr-t 2/4, Tomsk, 634021 Russia, chertova@ispms.tsc.ru)
V.E. Egorushkin (Institute of Strength Physics and Materials Science, Siberian Branch of Russian Academy of Sciences, Akademicheskii pr-t 2/4, Tomsk, 634021 Russia)
Abstract We present the basic principles of physical mesomechanics of structurally inhomogeneous media; the theory is developed on the basis of common approaches of nonequilibrium thermodynamics, gauge theory of defects, and mechanics of structured media. Within a multilevel approach, the plastic deformation evolution is considered in the entire hierarchy of structure-scale levels: at the nano, micro, meso, and macro level. Fracture is treated as the final stage of increasing disequilibrium of a solid, when the nonequilibrium thermodynamical Gibbs potential becomes zero and the structure-phase decay of the crystal occurs.
Keywords physic, mesomechanics, gauge theories, structure-scale levels, nonlinear waves, deformation, fracture
References
1.  V. E. Panin, Yu. V. Grinyaev, T. F. Elsukova, and A. G. Ivanchin, "Structural Levels of Deformation in Solids," Izv. Vyssh. Uchebn. Zaved. Fiz. 25 (6), 5-27 (1982) [Sov. Phys. J. (Engl. Transl.) 25 (6), 479-497 (1982)].
2.  V. E. Panin, V. A. Likhachev, and Yu. V. Grinyaev, Structure Levels of Deformation of Solids (Nauka, Novosibirsk, 1985) [in Russian].
3.  V. E. Panin (Editor), Structure Levels of Plastic Deformation and Fracture (Nauka, Novosibirsk, 1990) [in Russian].
4.  V. E. Panin (Editor), Physical Mesomechanics and Computer Simulation of Materials (Nauka, Novosibirsk, 1995) [in Russian].
5.  V. E. Panin (Editor), Physical Mesomechanics of Heterogeneous Media and Computer-Aided Design of Materials (Cambridge Interscience Publ., Cambridge, 1998).
6.  V. E. Panin, "Overview on Mesomechanics of Plastic Deformation and Fracture of Solids," Theor. Appl. Fract. Mech. 30 (1), 1-11 (1998).
7.  V. E. Panin and V. E. Egorushkin, "Nonequilibrium Thermodynamics of a Deformed Solid as a Multiscale System. Corpuscular-Wave Dualism of Plastic Shear," Fizich. Mezomekh. 11 (2), 9-30 (2008) [Phys. Mesomech. (Engl. Transl.) 11 (3-4), 105-123 (2008)].
8.  V. E. Panin and Yu. V. Grinyaev, "Physical Mesomechanics - a New Paradigm on the Intersection of Physics and Deformable Body Mechanics," Fizich. Mezomekh. 6 (4), 9-36 (2003) [Phys. Mesomech. (Engl. Transl.)].
9.  M. A. Leontovich, "On the Free Energy of a Nonequilibrium State," Zh. Eksp. Teor. Fiz. 8 (7), 844-854 (1938).
10.  P. C. Hohenberg and B. I. Shraiman, "Chaotic Behavior of an Extended System," Physica D 37, 109-115 (1989).
11.  V. E. Panin, "Strain-Induced Defects in Solids at the Different Scale Levels of Plastic Deformation and the Nature of Their Sources," Mater. Sci. Engng A 319-321, 197-200 (2001).
12.  V. E. Panin, V. E. Egorushkin, A. V. Panin, and D. D. Moiseenko, "On the Nature of Plastic Strain Localization in Solids," Zh. Tekh. Fiz. 77 (8), 62-69 (2007) [Tech. Phys. (Engl. Transl.) 52 (8), 1024-1030 (2007)].
13.  V. E. Panin (Editor), Surface Layers and Intrinsic Boundaries in Heterogeneous Materials (Izd-vo SO RAN, Novosibirsk, 2006) [in Russian].
14.  J. Gilman and W. Johnston, "Origination of Dislocations in LiF Crystals under Low Stresses," in Dislocations and Mechanical Properties of Crystals (Inostr. Lit., Moscow, 1960), pp. 393-394 [in Russian].
15.  J. D. Eshelby, in Boundary Problems (North-Holland Publ., Amsterdam, 1979), Vol. 1, pp. 167-220.
16.  L. G. Orlov, "Generation of Dislocations on External and Internal Surfaces of Crystals," Fiz. Tverd. Tela 9 (8), 2345-2349 (1967) [Sov. Phys. Solid State (Engl. Transl.) 9 (8), 1836-1839 (1968)].
17.  V. P. Alekhin, Physics of Strength and Plasticity of Surface Layers of Materials (Nauka, Moscow, 1983) [in Russian].
18.  V. E. Panin, D. D. Moiseenko, P. V. Maksimov, and A. V. Panin, "Physical Mesomechanics of a Solid Treated as a Multilevel System. III. Inelastic Forerunner of Plastic Shear Origination," Fizich. Mezomekh. 9 (5), 5-15 (2006) [Phys. Mesomech. (Engl. Transl.)].
19.  Yu. V. Grinyaev and V. E. Panin, "Stress State in Elastically Loaded Polycrystal," Izv. Vyssh. Uchebn. Zaved. Fiz. 21 (12), 95-101 (1978) [Sov. Phys. J. (Engl. Transl.) 21 (12), 1598 (1978)].
20.  G. P. Cherepanov, "On the Theory of Thermal Stresses in a Thin Bonding Layer," J. Appl. Phys. 78, 6826-6832 (1995).
21.  I. F. Golovnev, E. I. Golovneva, and V. M. Fomin, "Effect of Interfaces on Mechanical Properties of Heterostructures," Fizich. Mezomekh. 12 (4), 43-46 (2009) [Phys. Mesomech. (Engl. Transl.) 12 (5-6), 235-238 (2009)].
22.  V. E. Egorushkin, "Dynamics of Plastic Deformation. Waves of Localized Plastic Deformation in Solids," Izv. Vyssh. Uchebn. Zaved. Fiz. 35 (4), 19-41 (1992) [Russ. Phys. J. (Engl. Transl.) 35 (4), 316-334 (1992)].
23.  F. D. Murnaghan, Finite Deformation of Elastic Solid (Wiley, New York, 1951).
24.  V. E. Panin, A. V. Panin, and D. D. Moiseenko, "Physical Mesomechanics of a Deformed Solid as a Multilevel System. II. Chessboard-Like Mesoeffect of the Interface in Heterogeneous Media in External Fields," Fizich. Mezomekh. 9 (6), 5-15 (2006) [Phys. Mesomech. (Engl. Transl.) 10 (1-2), 5-14 (2007)].
25.  A. V. Panin, "Nonliner Waves of Localized Plastic Flow in Nanostructure Surface Layers of Solids and Thin Films," Fizich. Mezomekh. 8 (3), 5-17 (2005) [Phys. Mesomech. (Engl. Transl.)].
26.  P. V. Makarov, "On Hierarchical Nature of Deformation and Fracture of Solids," Fizich. Mezomekh. 7 (4), 25-34 (2004) [Phys. Mesomech. (Engl. Transl.)].
27.  V. A. Romanova, Z. Z. Balokhonov, and N. I. Karpenko, "Modeling of Mechanical Behavior of Materials with Three-Dimensional Internal Structure Taken into Account," Fizich. Mezomekh. 7 (2), 71-79 (2004) [Phys. Mesomech. (Engl. Transl.)].
28.  S. G. Psakhie, Ya. Khori, S. Yu. Korostelev, et al., "Variable Cellular Automaton Method as a Tool for Modeling in the Framework of Physical Mesomechanics," Izv. Vyssh. Uchebn. Zaved. Fiz. 38 (11), 58-69 (1995) [Sov. Phys. J. (Engl. Transl.)].
29.  V. E. Panin, Yu. V. Grinyaev, V. E. Egorushkin, et al., "Excited State Spectrum and Vortex Mechanical Field in a Deformable Crystal," Izv. Vyssh. Uchebn. Zaved. Fiz. 30 (1), 36-51 (1987) [Sov. Phys. J. (Engl. Transl.) 30 (1), 34 (1987)].
30.  N. V. Chertova and Yu. V. Grinyaev, "Description of Heterogeneous Solids in the Framework of the Gauge Approach," Fizich. Mezomekh. 9 (5), 17-25 (2006) [Phys. Mesomech. (Engl. Transl.) 10 (1-2), 69-77 (2007)].
31.  V. E. Panin, "Synergetic Principles of Physical Mesomechanics," Fizich. Mezomekh. 3 (6), 5-36 (2000) [Phys. Mesomech. (Engl. Transl.)].
32.  S. Yoshida, "Dynamics of Plastic Deformation Based on Restoring and Energy Dissipative Mechanisms in Plasticity," Fizich. Mezomekh. 11 (2), 31-32 (2008) [Phys. Mesomech. (Engl. Transl.) 11 (3-4), 137-143 (2008)].
33.  V. E. Panin, T. F. Elsukova, V. E. Egorushkin, et al., "Nonlinear Wave Effects of Curvature Solitons in Surface Layers of High-Purity Aluminum Polycrystals under Severe Plastic Deformation. I. Experiment," Fizich. Mezomekh. 10 (6), 21-32 (2007) [Phys. Mesomech. (Engl. Transl.) 11 (1-2), 63-72 (2008)].
34.  V. E. Panin, N. S. Surikova, T. F. Elsukova, et al., "Nanostructured Phase Boundaries in Aluminum under Cyclic Intensive Plastic Deformation," Fizich. Mezomekh. 12 (6), 5-16 (2009).
35.  Yu. V. Grinyaev and N. V. Chertova, "The Gauge Theory of Plastic Deformation in Continuum Mechanics," Izv. Vyssh. Uchebn. Zaved. Fiz. 33 (2), 36-50 (1990) [Russ. Phys. J. (Engl. Transl.) 33 (2), 123 (1990)].
36.  Yu. V. Grinyaev, "Gauge-Invariant Description of Structure-Inhomogeneous Media Deformation," in Physical Mesomechanics and Computer Construction of Materials, Ed. by V. E. Panin (Nauka, Novosibirsk, 1995), Vol. 1, pp. 102-112 [in Russian].
37.  V. I. Vladimirov and A. E. Romanov, Disclination in Crystals (Nauka, Leningrad, 1986) [in Russian].
38.  V. E. Panin, E. E. Deryugin, Z. Schmauder, and I. V. Storozhenko, "Strain Localization Effects in Composites Based on Al with Al2O3 inclusions," Fizich. Mezomekh. 12 (6), 5-16 (2009).
39.  V. E. Panin, L. S. Derevyagina, E. E. Deryugin, et al., "Laws of Prefracture Stage in Physical Mesomechanics," Fizich. Mezomekh. 6 (6), 97-106 (2003).
40.  Yu. V. Grinyaev, N. V. Chertova, and V. E. Panin, "Dynamical Equations of an Ensemble of Defects in the Presence of Disoriented Substructures," Zh. Tekh. Fiz. 68 (9), 134-135 (1998) [Tech. Phys. (Engl. Transl.) 42 (9), 1128-1129 (1998)].
41.  N. V. Chertova and Yu. V. Grinyaev, "Propagation Characteristics of Plane Waves of Defects in a Viscoplastic Medium," Pis'ma Zh. Teoret. Fiz. 25 (18), 91-94 (1999) [Tech. Phys. Lett. (Engl. Transl.) 25 (9), 756-757 (1999)].
42.  V. V. Rybin, Large Plastic Strains and Metal Fracture (Metallurgiya, Moscow, 1986) [in Russian].
43.  I. Yu. Smolin, P. V. Makarov, and R. A. Bakeev, "Generalized Model of Elastoplastic Medium with Independent Plastic Rotations," Fizich. Mezomekh. 7 (Special Issue, Pt. 1), 89-92 (2004).
44.  L. S. Derevyagina, V. E. Panin, and A. I. Gordienko, "Self-Organization of Plastic Shears in Localized Deformation Macrobands in the Neck of High-Strength Polycrystals, Its Role in Material Fracture under Uniaxial Tension," Fizich. Mezomekh. 10 (4), 59-72 (2007) [Phys. Mesomech. (Engl. Transl.) 11 (1-2), 51-62 (2008)].
Received 01 March 2010
Link to Fulltext
<< Previous article | Volume 45, Issue 4 / 2010 | Next article >>
Orphus SystemIf you find a misprint on a webpage, please help us correct it promptly - just highlight and press Ctrl+Enter
101 Vernadsky Avenue, Bldg 1, Room 246, 119526 Moscow, Russia (+7 495) 434-3538 mechsol@ipmnet.ru https://mtt.ipmnet.ru
Founders: Russian Academy of Sciences, Ishlinsky Institute for Problems in Mechanics RAS 		© Mechanics of Solids
webmaster		 Rambler's Top100