Summary: 3. A. A. Sadovoi and N. M. Chulkov, "Distribution of kinetic energy dissipation into thermal
energy over a spherical shell thickness because of viscosity," in: Calculation Algorithms
of Engineering Science. Ser. Numerical Solution Methods and Programs for Mathematical
Physics Problems [in Russian], No. 3 (1982).
4. A. V. Attetkov, V. V. Selivanov, and V. S. Solov'ev, "Dynamics of spherical pore deforma-
tion in a plastic material," Zh. Prikl. Mekh. Tekh. Fiz., No. 1 (1983).
5. B. A. Khasainov, A. A. Borisov, B. S. Ermolaev, et al., "Viscoplastic mechanism of 'hot
point' formation in solid heterogeneous explosives," in: Detonation. Materials of the
2nd All-Union Conference on Detonation, Branch of the Chemical Physics Institute, Aca-
demy of Sciences of the USSR, Chernogolovka (1981).
6. B. A. Khasainov, A. A. Borisov, and B. S. Ermolaev, "Shockwave predetonation processes
in porous high explosives," 8th Int. Colloq. on Gasdynamics of Explosions and Reactive
Systems, Minsk (1981).
A. V. Attetkov, L. N. Vlasova, et al., "Local material heating in the neighborhood of
a pore during its collapse," Zh. Prikl. Mekh. Tekh. Fiz., No. 2 (1984).
K. T. Kim and C.-H. Sohn, "Modelng of reaction buildup processes in shocked porous ex-
plosives," in: 8th Symp. (Int.) on Detonation, Vol. 2, Albuquerque (1985).
R. B. Frey, "Cavity collapse in energetic materials," 8th Symp. (Int.) on Detonation,
Vol. i, Albuquerque (1985).
A. A. Sadovoi and N. M. Chulkov, "Inertial convergence of cylindrical and spherical shells