1. M. V. Anis’kin, O. N. Ignatova, I. I. Kaganova, A. V. Kalmanov, E. V. Koshatova, A. I. Lebedev, V. V. Losev, A. M. Podurets, L. V. Polyakov, M. I. Tkachenko, A. N. Tsibikov, G. A. Salischev, G. V. Garkushin, S. V. Razorenov, and M. A. Zocher, “Mechanical Properties of Tantalum with Different Types of Microstructure under High-Strain-Rate Deformation,” Phys. Mesomekh. 14, 79–84 (2011).
2. O. N. Ignatova, I. I. Kaganova, A. B. Kal’manov, A. N. Malyshev, V. I. Skokov, A. M. Podurez, B. A. Raevsky, O. A. Tyupanova, G. A. Salishev, C. V. Razoryonov, and M. A. Zocher, “Effect of Shock Wave and Quasi-Isentropic Loading on the Shear and Spalling Strength of Metals with Natural and Microcrystalline Structure,” Proc. Joint USA-Russian Conf. on Advances in Materials Science, Prague, 2009, p VII–24.
3. J. George, “On Electron Microscope Investigation of Explosively Loaded Copper,” Philos. Mag. 15, 497–506 (1967).
4. L. E. Murr, “Microstructure and Mechanical Properties of Metals and Alloys after Loading by Shock Waves,” in Shock Waves and High-Strain-Rate Phenomena in Metals, Ed. by M. A. Meyers and L. E. Murr (Plenum, New York, 1981; Metallurgy, Moscow, 1984).
5. A. Rohatgi and K. S. Vecchio, “The Variation of Dislocation Density as a Function of the Stacking Fault Energy in Shock-Deformed FCC Materials,” Mater. Sci. Eng., A 328, 256–266 (2002).