18. Методы исследования свойств материалов при интенсивных динамических
нагрузках / под ред. М.В. Жерноклетова. Саров: РФЯЦ-ВНИИЭФ, 2005.
428 с.
19.
Высокоскоростные
ударные явления / под ред. В.Н. Николаевского. М.: Мир,
1973. 538 с.
REFERENCES
[1] Babkin A.V., Kolpakov V.I., Okhitin V.N., Selivanov V.V. Prikladnaya mekhanika
sploshnykh sred. V 3 t. T. 3. Chislennye metody v zadachakh fiziki vzryva i udara
[Applied continuum mechanics. In 3 vol. Vol. 3. Numerical methods in problems of
physics of explosion and shock]. Moscow, MGTU im. N.E. Baumana Publ., 2000.
516 p.
[2] Sagomonyan A.Ya. Pronikanie [Penetration]. Moscow, MGU Publ., 1974. 300 p.
[3] Fomin V.M., Gulidov A.I., Sapozhnikov G.A. Vysokoskorostnoe vzaimodeystvie tel
[High-speed interaction of bodies]. Novosibirsk, Izd. SO RAN Publ., 1999. 600 p.
[4] Alekseevskiy V.P. On the penetration of the rod into the target at high velocity.
Fiz.
Goreniya Vzryva
[Combust., Explos., Shock Waves], 1966, vol. 2, no. 2, pp. 99–106
(in Russ.).
[5] Tate A. A theory for the deceleration of long rods after impact.
J. Mech. Phys. Solids
,
1967, vol. 15, no. 6, pp. 387–399.
[6] Wilkins M.L. Alder B., Fernbach S., Retenberg M., eds. Calculation of elastic-plastic
flow, methods of computational physics. New York, Academic Press, 1964. (Russ.
Ed.: Uilkins M.L. Raschet uprugoplasticheskikh techeniy: Vychislitel’nye metody v
gidrodinamike. Per. s angl. Moscow, Mir Publ., 1967, pp. 212–263.).
[7] Oran E.S., Boris J.P. Numerical simulation of reactive flow. 2nd Ed. Cambridge Uni.
Press, Naval Research Laboratory Publ., 2001. 522 p. (Russ. Ed.: Oran E., Boris Dzh.
Chislennoe modelirovanie reagiruyushchikh potokov. Per. s angl. Moscow, Mir Publ.,
1990. 660 p.).
[8] Fedorov S.V. On the possibility of “cutoff” of the leading high-velocity portion
of the metal jet in the explosion of a shaped charge in the axial magnetic field.
Boepripasy i vysokoenergeticheskie kondensirovannye sistemy
[Explosives and high
energy condensed system], 2008, no. 2, pp. 73–80 (in Russ.).
[9] Veldanov V.A., Markov V.A., Pusev V.I., Ruchko A.M., Sotskiy M.Yu., Fedorov S.V.
Computation of nondeformable striker penetration into low-strength obstacles using
piezoelectric accelerometry data.
Zh. Tekh. Fiz.
[Tech. Phys. The Russ. J. Appl.
Phys.], 2011, vol. 56, iss. 7, pp. 94–104 (in Russ.).
[10] Fedorov S.V., Veldanov V.A. Numerical simulation of cavity formation in soil by a
flux of high-speed metallic penetrators.
Zh. Tekh. Fiz.
[Tech. Phys. The Russ. J. Appl.
Phys.], 2006, vol. 76, iss. 7, pp. 134–137 (in Russ.).
[11] Fedorov S.V. By definition the penetration depth of mushy projectiles at hypervelocity
interaction.
Zh. Tekh. Fiz.
[Tech. Phys. The Russ. J. Appl. Phys.], 2007, vol. 77,
iss. 10, pp. 131–134 (in Russ.).
[12] Fedorov S.V., Veldanov V.A. Determining of the dimension of a cavity in water
behind a fast-moving cylindrical body.
Zh. Tekh. Fiz.
[Tech. Phys. The Russ. J. Appl.
Phys.], 2013, vol. 83, iss. 2, pp. 15–20 (in Russ.).
[13] Magness L.S., Kapoor D. Tungsten composite materials with alternative matrices for
ballistic applications.
Proc. of the Fifth Intern. Conf. on Tungsten: “Hard Metals and
Refractory Alloys”.
Princeton, New Jersey, 2000, pp. 15–23.
[14] Povarova K.B., Makarov P.V., Ratner A.D., Zavarzina E.K., Volkov K.V. VNZh-90
type heavy alloys. 1. Effect of alloying and conditions of tungsten powders production
of structure and properties of sintered alloys.
Metally
[Russ. Metall. (Engl. Transl.)],
2002, no. 4, pp. 39–48 (in Russ.).
82 ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. “Машиностроение”. 2015. № 1