Voir la notice de l'article provenant de la source Math-Net.Ru
@article{MM_2018_30_7_a4,
author = {V. A. Gasilov and A. S. Grushin and A. S. Ermakov and O. G. Olkhovskaya and I. B. Petrov},
title = {Modelling of the destruction of polymers under high energy impact},
journal = {Matemati\v{c}eskoe modelirovanie},
pages = {61--78},
publisher = {mathdoc},
volume = {30},
number = {7},
year = {2018},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/MM_2018_30_7_a4/}
}
TY - JOUR AU - V. A. Gasilov AU - A. S. Grushin AU - A. S. Ermakov AU - O. G. Olkhovskaya AU - I. B. Petrov TI - Modelling of the destruction of polymers under high energy impact JO - Matematičeskoe modelirovanie PY - 2018 SP - 61 EP - 78 VL - 30 IS - 7 PB - mathdoc UR - http://geodesic.mathdoc.fr/item/MM_2018_30_7_a4/ LA - ru ID - MM_2018_30_7_a4 ER -
%0 Journal Article %A V. A. Gasilov %A A. S. Grushin %A A. S. Ermakov %A O. G. Olkhovskaya %A I. B. Petrov %T Modelling of the destruction of polymers under high energy impact %J Matematičeskoe modelirovanie %D 2018 %P 61-78 %V 30 %N 7 %I mathdoc %U http://geodesic.mathdoc.fr/item/MM_2018_30_7_a4/ %G ru %F MM_2018_30_7_a4
V. A. Gasilov; A. S. Grushin; A. S. Ermakov; O. G. Olkhovskaya; I. B. Petrov. Modelling of the destruction of polymers under high energy impact. Matematičeskoe modelirovanie, Tome 30 (2018) no. 7, pp. 61-78. http://geodesic.mathdoc.fr/item/MM_2018_30_7_a4/
[1] M.L. Kerber, Polimernye kompozitsionnye materialy. Struktura. Svoistva. Tekhnologii, Professiia, Spb., 2011, 560 pp.
[2] N.J. Mills, Plastics: Microstructure and Engineering Applications, Elsevier, Burlington, 2005, 528 pp.
[3] S.L. Bazhenov, A.A. Berlin, A.A. Kulkov, V.G. Oshmian, Polimernye kompozitsionnye materialy, Izdatelskii dom Intellekt, Dolgoprudnyi, 2010, 352 pp.
[4] P. Linde, A. Schulz, W. Rust, “Influence of modelling and solution methods on the FE-simulation of the post-buckling behaviour of stiffened aircraft fuselage panels”, Composite Structures, 73:2 (2006), 229–236 | DOI
[5] I.M. Bulanov, V.V. Vorobei, Tekhnologiia raketnykh i aviakosmicheskikh konstruktsii iz kompozitsionnykh materialov, Ucheb. dlya vuzov, MGTU im. N.E. Baumana, M., 1998, 516 pp.
[6] H.M. Flower, C. Soutis, “Materials for airframes”, Aeronautical Journal, 107:1072 (2003), 331–341
[7] B.A. Demidov, V.P. Efremov, Yu.G. Kalinin, E.D. Kazakov, S.Yu. Metelkin, V.A. Petrov, A.I. Potapenko, “New method of the polymeric material properties experimental investigation under powerful energy flux impact”, Journal of Physics: Conference Series, 653:1 (2015), 012009 | DOI
[8] V.A. Gasilov, G.A. Bagdasarov, A.S. Boldarev, S.V. Diachenko, E.L. Kartasheva, O.G. Olkhovskaia, Programmnyi kompleks MARPLE, Svidetelstvo o gosudarstvennoi registratsii programmy dlia EVM; pravoobladatel IPM im. M.V. Keldysha RAN, No 2012660911; zaiavl. 11.10.2012; zareg. 30.12.2012
[9] V.G. Novikov, A.D. Solomiannaia, I.Iu. Vichev, A.S. Grushin, THERMOS: Biblioteka funktsii dlia rascheta radiatsionnykh i termodinamicheskikh svoistv razlichnykh veshchestv i smesei v shirokoi oblasti temperatur i plotnostei, Svidetelstvo o gosudarstvennoi registratsii programmy dlia EVM; pravoobladatel IPM im. M.V. Keldysha RAN, No 2013616315; zaiavl. 27.05.2013; zareg. 03.07.2013
[10] I.B. Petrov et al., “Combined grid-characteristic method for the numerical solution of threedimensional dynamical elastoplastic problems”, Computational mathematics and mathematical physics, 54:7 (2014), 1203–1217 | DOI | Zbl
[11] R.M. More, K.H. Warren, D.A. Young, G.B. Zimmerman, “A new quotidian equation of state (QEOS) for hot dense matter”, Phys. Fluids, 31 (1988), 3059 | DOI | Zbl
[12] A.F. Nikiforov, V.G. Novikov, V.B. Uvarov, Quantum-Statistical Models of Hot Dense Matter. Methods for Computation Opacity and Equation of State, Birkhauser Verlag, Basel, 2005, 439 pp. | MR | Zbl
[13] A.V. Bushman i dr., “Issledovanie pleksiglaza i teflona v volnakh povtornogo udarnogo szhatiia i izoentropicheskoy razgruzki”, Povedeniye veshchestv pod vozdeistviem silnykh udarnykh voln, Sbornik nauchnykh statey v 4 tomakh, ed. R. F. Trunin, FGUP “RFYATS-VNIIEF”, Sarov, 2007, 646 pp.
[14] W.K. Nowacki, Theory of Elasticity, Polish Scientific Publishers, Warsaw, 1970, 776 pp. | MR
[15] L.I. Sedov, Mechanics of Continuous Media, World Scientific Pub Co Inc, 1997, 1310 pp. | MR | Zbl
[16] L.D. Landau, E.M. Lifshitz, Theoretical physics, v. 7, Theory of elasticity, Pergamon press, Oxford, 1970, 195 pp. | MR
[17] K.M. Magomedov, A.S. Kholodov, Setochno-kharakteristicheskie chislennye metody, Nauka, M., 1988, 290 pp.
[18] O.M. Belotserkovskii, Chislennoe modelirovanie v mekhanike sploshnykh sred, Fiziko-matematicheskaia literatura, M., 1994, 441 pp.
[19] I.B. Petrov, A.G. Tormasov, A.S. Kholodov, “O chislennom izuchenii nestatsionarnykh protsessov v deformiruemykh sredakh mnogosloinoi struktury”, Mekhanika tverdogo tela, 1989, no. 4, 89–95
[20] I.B. Petrov, “Volnovye i otkolnye iavleniia v sloistykh obolochkakh konechnoi tolshchiny”, Mekhanika tverdogo tela, 1986, no. 4, 118–124
[21] I.B. Petrov, A.S. Kholodov, “Chislennoe issledovanie nekotorykh dinamicheskikh zadach mekhaniki deformiruemogo tverdogo tela setochnokharakteristicheskim metodom”, Zhurnal vychislitelnoi matematiki i matematicheskoy fiziki, 24:5 (1984), 722–739 | Zbl
[22] A.S. Kholodov, I.B. Petrov, “O reguliarizatsii razryvnykh chislennykh reshenii uravnenii giperbolicheskogo tipa”, Zhurnal vychislitelnoi matematiki i matematicheskoy fiziki, 24:8 (1984), 1172–1188 | Zbl
[23] A.S. Ermakov, A.V. Vasiukov, “O postroyenii parallelnoi versii setochno-kharakteristicheskogo metoda”, Matematicheskiye i informatsionnyye modeli upravleniya, Sb. trudov, MFTI, M., 2013, 58–64
[24] G. Maenden, S. Sack, “The TENSOR code”, Methods of Computational Physics, v. 3, 1964, 181–210