1. 1. Glushak, B.L., Kuropatenko, V.F., and Novikov, S.A., Study of Material Strength Under Dynamic Loading, Nauka Publ., Siberian Branch, Novosibirsk, 1992.

2. 2. Kanel, G.I., Razorenov, S.V., Utkin, A.V., and Fortov, V.E., Shock Wave Phenomena in Condensed Matter, Yanus-K Publ., Moscow, 1996, [see also Kanel, G.I., Razorenov, S.V., and Fortov, V.E., Shock-Wave Phenomena and the Properties of Condensed Matter, Springer-Verlag, New York, 2004].

3. 3. Fortov, V.E., Altshuler, L.V., Trunin, R.F., and Funtikov, A.I., (eds.), Shock Waves and Extreme States, Nauka Publ., Moscow, 2000. [see also, High- Pressure Shock Compression of Solids VII: Shock Waves and Extreme States, Springer-Verlag, NY, 2004].

4. 4. Batkov, Yu.V., Glushak, B.L., and Novikov, S.A., Material Resistance to Plastic Deformation in Shock Waves (Review), TsNIIAtominform, Moscow, 1990.

5. 5. Yaziv, D., Rosenberg, Z., and Partom, Y., “Determination of the Pressure Dependence of Yield Strength in 2024 Al Under Dynamic Loading with In-Material Manganin Gauges,” Proc., 3rd Conf. on the Mechanical Properties of Materials at High Rates of Strain, Oxford, UK, 1984, pp. 105–109.