This is a preview of subscription content, log in to check access.
Buy single article
Instant access to the full article PDF.
Price includes VAT for USA
I. P. Borin, S. A. Novikov, et al., “Kinetics of rupture of metals in the submicrosecond lifetime range,” Dokl. Akad. Nauk SSSR,266, No. 6 (1982).
G. I. Kanel', “Resistance of metals to spallation rupture,” Fiz. Goreniya Vzryva, No. 3 (1982).
S. G. Sugak, G. I. Kanle', et al., “Numerical modeling of the effect of an explosion on an iron plate,” Fiz. Goreniya Vzryva, No. 2 (1983).
A. G. Ivanov and S. A. Novikov, “Capacitance sensor method for recording the instantaneous velocity of a moving surface,” Prib. Tekh. Eksp., No. 1 (1963).
T. N. Johnson and I. M. Barker, “Dislocation dynamics and steady plastic wave profiles in 6061-T6 aluminum,” J. Appl. Phys.,40, No. 11 (1969).
S. A. Novikov, I. I. Divnov, and A. G. Ivanov, “Study of the rupture of steel, aluminum, and copper under explosive loading,” Fiz. Met. Metalloved.,21, No. 4 (1966).
G. V. Stepanov, “Spallation rupture of metals in two-dimensional elastoplastic loading waves,” Probl. Prochn., No. 8 (1976).
G. I. Kanel', “Work of spallation rupture,” Fiz. Goreniya Vzryva, No. 4 (1982).
G. I. Kanel' and L. G. Chernykh, “Process of spallation rupture,” Zh. Prikl. Mekh. Tekh. Fiz., No. 6 (1980).
B. A. Tarasov, “Rupture resistance of metals under shock loading,” Probl. Prochn., No. 3 (1974).
Yu. V. Bat'kov, S. A. Novikov, et al., “Effect of the temperature of a sample on the magnitude of the rupture stresses accompanying spallation in the AMG-6 aluminum alloy,” Zh. Prikl. Mekh. Tekh. Fiz., No. 3 (1979).
S. Cochran and D. Banner, “Spall studies in uranium,” J. Appl. Phys.,48, No. 7 (1977).
G. I. Kanel' and É. N. Petrova, “Strength of VT6 titanium under conditions of shock-wave loading,” in: Detonation [in Russian], Chernogolovka (1981).
L. Davison and A. L. Stevens, “Continuum measures of spall damage,” J. Appl. Phys.,43, No. 3 (1972).
A. A. Vorob'ev, A. N. Dremin, and G. I. Kanel', “Dependence of the coefficients of elasticity of aluminum on the degree of compression in a shock wave,” Zh. Prikl. Mekh. Tekh. Fiz., No. 5 (1974).
Translated from Zhurnal Prikladnoi Mekhaniki i TeKhnicheskoi Fiziki, No. 5, pp. 60–64, September–October, 1984.
In conclusion, the authors thank L. G. Ermolov for assistance in the preparation and performance of the experiments.
About this article
Cite this article
Kanel', G.I., Razorenov, S.V. & Fortov, V.E. Kinetics of spallation rupture in the aluminum alloy AMg6M. J Appl Mech Tech Phys 25, 707–711 (1984). https://doi.org/10.1007/BF00909372
- Mathematical Modeling
- Mechanical Engineer
- Aluminum Alloy
- Industrial Mathematic