Literature cited
V. Babul', Ya. Bagrovskii, and K. Berezhan'skii, “Explosive compaction of powders,” Vyz. Goreniya Vzryva, No. 2 (1975).
A. S. Kusubov, V. F. Nesterenko, M. L. Wilkins, J. E. Resugh, et al., “Dynamic deformation of powdered materials as a function of particle size,” Mater, of Intern. Semin, on High-Energy Working of Rapidly Solidified Materials, Novosibirsk (1989).
N. A. Kostjukov, “Formation mechanism of metallurgical inhomogeneities accompanying shock compaction of porous metals,” Shock Waves and High-Strain-Rate Phenomena, Proc. Intern. Conf., Albuquerque, New Mexico (1980). Plenum Press, New York (1981).
A. M. Kaunov, “Formation of metallization layers at high pressures,” Poroshk. Metall., No. 9 (1983).
A. M. Staver, N. A. Kostyukov, and G. E. Kus'min, “Study of flow behind an oblique shock wave in the explosive compaction of powders,” Use of Explosive Energy for the Production of Metallic Materials with New Properties: Materials of the Second International Symposium, Vol. 2, Marianske Lazne, 1973. Pardubice, ChSSR (1974).
N. A. Kostyukov and F. A. Sagdiev, “Determination of the critical parameters of shock-wave reflection in powder composites,” Fiz. Goreniya Vzryva, No. 1 (1989).
N. A. Kostyukov, “Features of the oblique reflection of shock waves from a barrier in powders,” in: Dynamics of Continous Media, Collection of Scientific Works, Vol. 29, Siberian Hydrodynamics Univ. (1977).
N. A. Kostyukov and G. E. Kuz'min, “Effect of the initial characteristics of the medium on the parameters of the reflection of shock waves,” Zh. Prikl. Mekh. Tekh. Fiz., No. 1 (1985).
N. A. Kostyukov, “Experimental study of the expansion of a porous body after a Mach wave reaches its surface,” Din. Sploshnoi strainedy,48 (1980).
N. A. Kostyukov, “Relationship between flow structure and laws governing consolidation in the impulsive compaction of porous media,” Use of Explosive Energy for the Production of Metallic Materials with New Properties: Materials of the Sixth International Symposium, Gottwaldov, 1985. Pardubice, Chechoslovak sensor (1985).
N. A. Kostyukov and G. E. Kuz'min, “Criterion of the formation of inhomgeneities of the “central-zone” type in the shock loading of porous media,” Fiz. Goreniya Vzryva, No. 5 (1986).
D. G. Morris, “Bonding processes during the dynamic compaction of metallic powders,” Mat. Sci. Eng.,57, 187 (1983).
O. V. Roman, V. G. Gorobtsov, and I. M. Pikus, “Features of the formation of powder materials by shock-loading methods,” in: Powder Metallurgy: All-Republic Inter-sectoral Symposium, No. 7, Vysheish. Shk., Minsk (1983).
R. B. Schwartz, P. Kasiraj, T. Veeland, and T. J. Ahrens, “Theory for shock-wave consolidation of powder,” Acta Metall.,32. No. 8 (1984).
V. F. Nesterenko, Nonlinear Phenomena in the Shock Loading of Heterogeneous Condensed Media. Physical-Mathematical Sciences Doctoral Dissertation. Novosibirsk (1988).
W. H. Gourdin and S. L. Weinland, “Hugoniot measurements on unsintered metal powders,” in: Shock Waves in Condensed Matter: Proc. of the Am. Phys. Soc. Top. Conf., Sante Fe, New Mexico (1983).
A. G. Mamalis, G. N. Gioftsidis, and A. Szalay, “The shock-wave compaction of copper powder rectangular thin plates in multidies,” Mater, of 10th Intern. Conf. on High-Energy-Rate Fabrication, Ljubljana, Yugoslovia (1989).
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Translated from Prikladnaya Mekhanika i Tekhnicheskaya Fizika, No. 6, pp. 154–161, November–December, 1991.
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Kostyukov, N.A. Physical causes and mechanisms of the formation of boundary regions in the two-dimensional explosive compaction of powdered materials. J Appl Mech Tech Phys 32, 967–973 (1991). https://doi.org/10.1007/BF00850649
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DOI: https://doi.org/10.1007/BF00850649