Voir la notice de l'article provenant de la source Math-Net.Ru
@article{MM_2012_24_2_a2,
author = {A. B. Kiselev},
title = {Modelling of fragmentation of thin-shelled constructions and compact elements under explosive loading and impact interaction},
journal = {Matemati\v{c}eskoe modelirovanie},
pages = {33--66},
publisher = {mathdoc},
volume = {24},
number = {2},
year = {2012},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/MM_2012_24_2_a2/}
}
TY - JOUR AU - A. B. Kiselev TI - Modelling of fragmentation of thin-shelled constructions and compact elements under explosive loading and impact interaction JO - Matematičeskoe modelirovanie PY - 2012 SP - 33 EP - 66 VL - 24 IS - 2 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/MM_2012_24_2_a2/ LA - ru ID - MM_2012_24_2_a2 ER -
%0 Journal Article %A A. B. Kiselev %T Modelling of fragmentation of thin-shelled constructions and compact elements under explosive loading and impact interaction %J Matematičeskoe modelirovanie %D 2012 %P 33-66 %V 24 %N 2 %I mathdoc %U http://geodesic.mathdoc.fr/item/MM_2012_24_2_a2/ %G ru %F MM_2012_24_2_a2
A. B. Kiselev. Modelling of fragmentation of thin-shelled constructions and compact elements under explosive loading and impact interaction. Matematičeskoe modelirovanie, Tome 24 (2012) no. 2, pp. 33-66. http://geodesic.mathdoc.fr/item/MM_2012_24_2_a2/
[1] Coleman B.D., Gurtin N.E., “Thermodynamics with internal state variables”, J. Chem. Phys., 47:2 (1967), 597–613 | DOI
[2] Kukudzhanov V.N., “Chislennoe modelirovanie dinamicheskikh protsessov deformirovaniya i razrusheniya uprugoplasticheskikh sred”, Uspekhi mekhaniki, 8:4 (1985), 21–65
[3] Aptukov V.N., “Model termouprugoplasticheskoi povrezhdennoi sredy. Prilozhenie k otkolnomu razrusheniyu”, FGV, 1986, no. 6, 120–130
[4] Astafev V.I., “Strukturnye parametry i dlitelnaya prochnost metallov v usloviyakh polzuchesti”, PMTF, 1987, no. 6, 156–162
[5] Kondaurov V.I., Nikitin L.V., Teoreticheskie osnovy reologii geomaterialov, Nauka, M., 1990, 207 pp.
[6] Kiselev A.B., Yumashev M.V., “Deformirovanie i razrushenie pri udarnom nagruzhenii. Model povrezhdaemoi termouprugoplasticheskoi sredy”, PMTF, 1990, no. 5, 116–123
[7] Kiselev A.B., Yumashev M.V., “Matematicheskaya model deformirovaniya i razrusheniya tverdogo topliva pri udarnom nagruzhenii”, PMTF, 1992, no. 6, 126–134
[8] Kiselev A.B., “The model of thermoelastoplastic deformation and fracture of materials under multiaxial loading”, Forth Int. Conf. of Biaxial/Multiaxial Fatique (St.Germain en Laye, France, May 31–June 3, 1994), v. 2, 183–186
[9] Kiselev A.B., “Thermomechanical model of dynamic deformation and combined fracture of solids”, Proc. of Int. Conf. of Structure and Properties of the Brittle and Quaziplastic Materials (June 14–16, 1994, Riga, Latvia), Inst. of Inorganic Chemistry of the LAS, Riga, 66–70
[10] Kiselev A.B., Yumashev M.V., “Mathematical modelling of dynamic Processes of deformation and microfracture of metals and solid fuels”, Proc. of the IMACS Symposium on Mathematical Modelling (February 2–4, 1994, Tech. University Vienna, Austria), v. 5, TUV, Vienna, 1994, 885–888
[11] Kiselev A.B., Yumashev M.V., Zelensky A.S., “Mathematical modeling of dynamic processes of deformation and microfracture of thermoelastoplastic media”, Advances in Fracture Resistance in Materials, v. 2, eds. V.V. Panasyuk, D.M.R. Taplin, M.C. Pandey, O.Ye. Andreykiv and P. Rama Rao, M§Tata McGraw Publ. Ltd., New Delhi, India, 1996, 281–287
[12] Kiselev A.B., “Mathematical modelling of dynamical deforming and combined microfracture of damageable thermoelastoviscoplastic medium”, Studies in Applied Mechanics 45: Advanced Methods in Materials Processing Defects, eds. M. Predeleanu and P. Gilormini, Elsevier, Amsterdam, 1997, 43–50 | DOI
[13] Kiselev A.B., Yumashev M.V., Volod'ko O.V., “Deforming and fracture of metals. The model of damageable thermoelastoviscoplastic medium”, J. of Materials Processing Technology, 80–81 (1998), 585–590 | DOI
[14] Kiselev A.B., “Matematicheskoe modelirovanie dinamicheskogo deformirovaniya i kombinirovannogo mikrorazrusheniya termouprugovyazkoplasticheskoi sredy”, Vestnik MGU. Ser. 1. Matem. Mekhan., 1998, no. 6, 32–40
[15] Kiselev A.B., “Matematicheskoe modelirovanie dinamicheskikh protsessov neobratimogo deformirovaniya i razrusheniya tverdykh tel”, Matematicheskoe modelirovanie, 12:6 (2000), 115–120
[16] Kiselev A.B., “Modeli neobratimogo dinamicheskogo deformirovaniya i mikrorazrusheniya povrezhdaemykh sred”, Materialy Mezhd. nauchnogo simp. po problemam mekhaniki deformiruemykh sred, posv. 90-letiyu A. A. Ilyushina (Moskva, 22–23 yanv. 2001), Izd-vo Mosk. un-ta, M., 2001, 381–383
[17] Kiselev A.B., Lukyanov A.A., “Numerical simulation of dynamic processes of irreversible deforming and micro and macrofracture of solids”, Proc. of the Fifth World Congress on Computational Mechanics (WCCMV), July 7–12, 2002, Vienna, Austria, eds. H.A. Mang, F.G. Rammerstorfer, J. Eberhardsteiner, Vienna Univ. of Technology, Austria, 10
[18] Kiselev A.B., Lukyanov A.A., “Mathematical modelling of dynamic processes of irreversible deforming, micro- and macrofracture of solids and structures”, Int. Journal of Forming Processes, 5:2–3–4 (2002), 351–362 | DOI
[19] Kiselev A.B., Nekhaeva O.V., “Mathematical modelling of dynamic processes of irreversible deforming, micro- and macrofracture of solids and structures”, 11th Int. Conference on Fracture, Proc. on CD-ROM (Turin (Italy), March 20–25, 2005), CCI, Turin, 2005, 6
[20] Kiselev A.B., Nekhaeva O.V., “Computational simulation of dynamic processes of irreversible deforming, micro- and macrofracture of solids and structures”, First Int. Conference on Computational Methods in Science and Engineering, Proc. on CD-ROM (Santorini, Greece, May 25–27, 2005), CIMNE, Barcelona, Spain, 2005, 20
[21] Kiselev A.B., “Matematicheskoe modelirovanie protsessov neobratimogo dinamicheskogo deformirovaniya, mikro- i makrorazrusheniya tverdykh tel”, Gazovaya i volnovaya dinamika, Airis-press, M., 2005, 156–167
[22] Kiselev A.B., Nekhaeva O.V., Privalsky A.V., “Computational simulation of irreversible deforming and fracture of damageable solids and structures”, III European Conf. on Computational Mechanics — Solids, Structures and Coupled Problems in Engineering, Proc. on CD-ROM (Lisbon, Portugal, 5–9 June 2006), 18
[23] Kiselev A.B., Nekhaeva O.V., “Computational simulation of irreversible deforming and fracture of damageable solids and structures”, COMPDYN 2007. Computational Methods in Structural Dynamics and Earthquake Engineering, Proc. on CD-ROM (Book of Proc. of the Int. Conf. on Computational Methods in Structural Dynamics and Earthquake Engineering, Rethhymno, Crete, Greece, 13–16 June, 2007), 12
[24] Kiselev A.B., Maksimov V.F., Nekhaeva O.V., “Chislennoe modelirovanie protsessov neobratimogo deformirovaniya i razrusheniya konstruktsii, soprovozhdayuschikh udar, vzryv i pronikanie”, Sovremennye problemy matematiki i mekhaniki, v. I, Prikladnye issledovaniya, eds. V.V. Aleksandrov i V.B. Kudryavtsev, Izd-vo MGU, M., 2009, 276–292
[25] Shall R., “Fizika detonatsii”, Fizika bystroprotekayuschikh protsessov, v. 2, Mir, M., 1971, 276–349
[26] Baum F.A., Orlenko L.P., Stanyukovich K.P. i dr., Fizika vzryva, Nauka, M., 1975, 704 pp.
[27] Broud G., Raschety vzryvov na EVM, Mir, M., 1976, 270 pp.
[28] Meider Ch., Chislennoe modelirovanie detonatsii, Mir, M., 1985, 384 pp.
[29] Beiker M., Koks P., Uestain P. i dr., Vzryvnye yavleniya. Otsenki i posledstviya, V 2-kh tomakh, Mir, M., 1986, 319, 384 pp.
[30] Selivanov V.V., Solovev V.S., Sysoev N.N., Udarnye i detonatsionnye volny. Metody issledovanii, Izd-vo MGU, M., 1990, 262 pp.
[31] Belov N.N., Demidov V.N., Efremova L.V. i dr., “Kompyuternoe modelirovanie dinamiki vysokoskorostnogo udara i soputstvuyuschikh fizicheskikh yavlenii”, Izv. vyssh. uch. zaved. Fizika, 1992, no. 8, 5–48
[32] Rybakov A.P., “Otkoly v stali pri nagruzhenii s pomoschyu vzryva listovogo zaryada VV i udara plastinoi”, PMTF, 1977, no. 1, 151–155
[33] Deribas A.A., Fizika uprochneniya i svarki vzryvom, Nauka, Novosibirsk, 1980, 219 pp.
[34] Kanel G.I., Razorenov S.V., Utkin A.V., Fortov V.E., Eksperimentalnye profili udarnykh voln v kondensirovannykh veschestvakh, Fizmatlit, M., 2008, 248 pp.
[35] Kanel G.I., Fortov V.E., “Mekhanicheskie svoistva kondensirovannykh sred pri intensivnykh impulsnykh vozdeistviyakh”, Uspekhi mekhaniki, 10:3 (1987), 3–82
[36] Gendugov V.M., Kiselev A.B., “Chislennoe issledovanie otkola v plastine pri vzryve nakladnogo zaryada VV”, Vestnik MGU. Ser. 1. Matem. Mekhan., 1990, no. 5, 54–58
[37] Bogdanov V.I., Zvyagin A.V., “Shtampovka vzryvom”, Vestnik MGU. Ser. 1. Matem. Mekhan., 1990, no. 2, 42–46
[38] Bogdanov V.I., Zvyagin A.V., “Metanie plastin vzryvom”, Vestnik MGU, Ser.1. Matem. Mekhan., 1991, no. 2, 39–45
[39] Odintsov V.A., Chudov L.A., “Rasshirenie i razrushenie obolochek pod deistviem produktov detonatsii”, Problemy dinamiki uprugo-plasticheskikh sred, Mir, M., 1975, 85–154
[40] Odintsov V.A., “Mekhanizm razrusheniya tsilindrov”, Voprosy fiziki vzryva i udara, Sb. st. MVTU im. N.E. Baumana, no. 1, 1980, 22–70
[41] Olive F., Nicaud A., Marillean J., Loichot R., “Rupture behavior of metals in explosive expansion”, Mechanical properties at high rates of strain, Proc. 2-nd conf. (Oxford, 1979), Bristol, London, 1980, 242–251
[42] Stelly M., Legrand J., Dormeval R., “Some metallurgical aspects of the dynamic expansion of shells in shock waves and high strain rate phenomena in metals”, Shock waves and high-strain-rate phenomena in metals. Concepts and applications, Proc. Int. Conf. (Albuquerque, 1980), Plenum Press, N.Y.; London, 1981, 113–125 | DOI
[43] Kolobanova A.E., Odintsov V.A., Chudov L.A., “Rasprostranenie treschiny v tsilindre, nagruzhennom vzryvom”, Izv. AN SSSR. MTT, 1982, no. 1, 138–149
[44] Ivanov A.G., Kochkin L.I., Novikov V.F., Folomeeva T.M., “Vysokoskorostnoe razrushenie tonkostennykh trub iz myagkoi stali”, PMTF, 1983, no. 1, 112–117
[45] Anderson C.E., Predebon W.W., “Computational modelling of explosive-filled cylinders”, Int. J. Engng. Sci., 21:12 (1985), 1317–1330 | DOI
[46] Odintsov V.A., “Bimodalnoe raspredelenie fragmentov tsilindrov”, FGV, 1991, no. 5, 118–122 | Zbl
[47] Odintsov V.A., “Gipereksponentsialnye spektry razrusheniya metallicheskikh tsilindrov”, Izv. RAN. MTT, 1992, no. 5, 48–55
[48] Odintsov V.A., “Dvumernoe raspredelenie oskolkov tsilindrov po masse i kharakteristike formy”, FGV, 1993, no. 1, 129–133
[49] Odintsov V.A., Shkalyabin I.O. Drobyaschee deistvie smesevykh VV v unifitsirovannykh tsilindrakh, FGV, 1994, no. 3, 147–150
[50] Ogorodnikov V.A., Tyulkin E.S., Ivanov A.G., “Prochnost i vyazkost metallov v shirokom diapazone izmeneniya skorosti deformatsii”, PMTF, 1995, no. 3, 134–140 | Zbl
[51] Proceedings of the First European Conference on Space Debris (Darmstadt, Germany, 1–7 April, 1993), ESA, Darmstadt, 1993, 741 pp.
[52] Ekologicheskie problemy i riski vozdeistvii raketno-kosmicheskoi tekhniki na okruzhayuschuyu sredu, Spravochnoe posobie, eds. Adushkin V.V., Kozlov S.I. i Petrov A.V., Izd-vo «Ankil», M., 2000, 640 pp.
[53] Space Debris. Hazard Evaluation and Mitigation, ed. N.N. Smirnov, Taylor and Francis, London and New York, 2002, 229 pp., Contributors: Anz-Meador P.D., Chobotov V.A., Flury W., Kiselev A.B., Nazarenko A.I., Nikitin V.F., Potter A.E., Smirnov N.N., Yasaka T.
[54] Sovremennye globalnye izmeneniya prirodnoi sredy, V 2-kh t., v. 1, Nauchnyi mir, M., 2006, 696 pp.
[55] Model kosmosa, Nauchno-informatsionnoe izdanie: V 2 t., v. 1, Fizicheskie usloviya v kosmicheskom prostranstve, eds. M.I. Panasyuk, L.S. Novikov, KDU, M., 2007, 872 pp.
[56] Kiselev A.B., “Prosteishaya matematicheskaya model razrusheniya kosmicheskogo apparata pri vzryve”, Vestnik MGU. Ser. 1. Matem. Mekhan., 1993, no. 4, 49–53
[57] Kiselev A.B., “Mathematical modeling of fragmentation of thin shells in explosion”, Proc. of the IMACS Symp. on Mathematical Modeling, v. 5, Tech. Univ., Vienna, 1994, 882–884
[58] Kiselev A.B., “Prosteishie matematicheskie modeli razrusheniya kosmicheskogo apparata pri vzryve”, PMTF, 1995, no. 2, 159–165
[59] Kiselev A.B., Chislennoe modelirovanie protsessov deformirovaniya i razrusheniya pri vzryvnom nagruzhenii, prepr. # 6, Mekhmat MGU im. M.V. Lomonosova, M., 1996, 36 pp.
[60] Kiselev A.B., Yumashev M.V., “O kriteriyakh dinamicheskogo razrusheniya termouprugoplasticheskoi sredy”, Vestnik MGU. Ser. 1. Matem. Mekhan., 1990, no. 4, 38–44
[61] Ivanov A.G., “O vozmozhnosti postroeniya edinoi teorii razrusheniya”, PMTF, 1990, no. 1, 109–116 | MR
[62] Ivanov A.G., “Rol inertsionnykh i uprugikh sil pri dinamicheskom razrushenii v plasticheskoi oblasti”, DAN SSSR, 321:1 (1991), 28–32 | Zbl
[63] Pezhina P., Osnovnye voprosy vyazkoplastichnosti, Mir, M., 1968, 176 pp.
[64] Fomin V.M., Gulidov A.I., Sapozhnikov G.A., Shabalin I.I., Babakov V.A., Kuropatenko V.F., Kiselev A.B., Trishin Yu.A., Sadyrin A.I., Kiselev S.P., Golovlev I.F., Vysokoskorostnoe vzaimodeistvie tel, Izd-vo SO RAN, Novosibirsk, 1999, 600 pp.
[65] Kiselev A.B., “Matematicheskoe modelirovanie fragmentatsii tonkostennykh sfericheskikh obolochek pod deistviem dinamicheskogo vnutrennego davleniya”, Vestnik MGU, Ser. 1. Matem. Mekhan., 1996, no. 3, 52–60
[66] Veibull V., Ustalostnye ispytaniya i analiz ikh rezultatov, Mashinostroenie, M., 273 pp.
[67] Fucke W., “Fragmentation experiments for the evolution of the small size debris population”, Proc. of the First European Conf. on Space Debris (Darmstadt, Germany, 5–7 April, 1993), ESA, Darmstadt, 1993, 275–280
[68] Kiselev A.B., “Computer Simulation of Thin-Walled Fuel Tanks Fragmentation under the Action of Explosion”, Proc. of the Second Europ. Conf. on Space Debris, ESOC, Darmstadt, Germany, 17–19 March 1997 (ESA SP-393, May 1997), 473–476
[69] Smirnov N.N, Kiselev A.B., Nikitin V.F., “Peculiarities of Space Debris Production in Different Types of Orbital Breakups” (ESA SP-393, May 1997), Proc. of the Second Europ. Conf. on Space Debris, ESOC, Darmstadt, Germany, 17–19 March 1997, 465– 471
[70] Kiselev A.B., “Matematicheskoe modelirovanie vzryvnogo razrusheniya sfericheskikh obolochek s obrazovaniem dvukh fraktsii oskolkov”, Vestnik MGU. Ser. 1. Matem. Mekhan., 1999, no. 2, 41–48
[71] Smirnov N.N., Kiselev A.B., Nazarenko A.I., “LEO technogeneous ontaminants evolution modeling with account of satellites collisions”, 51st Int. Astronautical Congress, IAA-00-IAA.6.4.10 (2–6 Oct. 2000, Rio de Janeiro, Brazil), 11
[72] Kiselev A.B., “Model fragmentatsii pri vysokoskorostnom soudarenii chastits kosmicheskogo musora”, Vestnik MGU. Ser. 1. Matem. Mekhan., 2001, no. 3, 50–55
[73] Smirnov N.N., Kiselev A.B., Nazarenko A.I., “LEO technogeneous ontaminants evolution modeling with account of satellites collisions”, Space Debris 2000, Sc. and Technol. Series American Austronaut. Society, 103, ed. J. Bendisch, 2001, 99–112
[74] Smirnov N.N., Kiselev A.B., Nikitin V.F., “Fragmentations caused by hypervelocity collisions of debris particles with pressurized vessels”, Proc. of the Third European Conf. on Space Debris (ESOC, Darmstadt, Germany, 19–21 March 2001), v. 2 (ESA, SP-473, Oct. 2001), 615–620
[75] Smirnov N.N., Kiselev A.B., Nazarenko A.I., “Modeling of the space debris evolution based on continua mechanics”, Proc. of the Third European Conf. on Space Debris (ESOC, Darmstadt, Germany, 19–21 March 2001), v. 1 (ESA, SP-473, Oct. 2001), 391–396
[76] Smirnov N.N., Kiselev A.B., Nazarenko A.I., “Matematicheskoe modelirovanie evolyutsii kosmicheskogo musora na okolozemnykh orbitakh”, Vestnik MGU. Ser. 1. Matem. Mekhan., 2002, no. 4, 34–42
[77] Smirnov N.N., Kiselev A.B., Nikitin V.F., “K issledovaniyu vysokoskorostnogo vzaimodeistviya elementov kosmicheskogo musora s gazonapolnennymi obolochkami”, Vestnik MGU. Ser. 1. Matem. Mekhan., 2003, no. 1, 42–54 | MR
[78] Smirnov N.N., Kiselev A.B., Nazarenko A.I., “Continuum model for space debris evolution with account of collisions and orbital breakups”, Space Debris, 2:4 (2000), 249–271 | DOI
[79] Kiselev A.B., Yarunichev V.A., “K issledovaniyu fragmentatsii chastits kosmicheskogo musora pri vysokoskorostnom soudarenii”, Vestnik MGU. Ser. 1. Matem. Mekhan., 2009, no. 2, 26–35
[80] Smirnov N.N., Kiselev A.B., Nikitin V.F., “Zaschita kosmicheskikh apparatov pri vysokoskorostnom vzaimodeistvii s elementami kosmicheskogo musora”, Sovremennye problemy matematiki i mekhaniki, v. I, Prikladnye issledovaniya, eds. V.V. Aleksandrov i V.B. Kudryavtsev, Izd-vo MGU, M., 2009, 226–244
[81] Fizicheskie velichiny, Spravochnik, eds. I.S. Grigorev, E.Z. Meilikhov, Energoatomizdat, M., 1991, 1232 pp.