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2009 №11 (05) 2009 №11 (07)

The Paton Welding Journal 2009 #11
TPWJ, 2009, #11, 28-36 pages  
MODELLING AND APPLICATION OF HIGH-VELOCITY EXPLOSION WELDING PROCESSES


Journal                    The Paton Welding Journal
Publisher                 International Association «Welding»
ISSN                       0957-798X (print)
Issue                       № 11, 2009 (November)
Pages                      28-36
 
 
Authors
G.V. SMIRNOV, A.D. SHUGANOV, R.V. STEFANOVICH, A.I. YADEVICH, I.V. PETROV, A.A. KAMORNY, V.A. KONOPLYANIK, A.R. LUCHENOK, A.A. TOLOSHNY, P.T. BOGDANOVICH and O.A. DZICHKOVSKY

Research Institute of Pulsed Processes, Minsk, Belarus
 
 
Abstract
Studies of Belarus researchers in theory of explosion welding are reviewed. Physical concepts underlying the mathematical model are described, and capabilities of numerical modelling of the joint formation process at subsonic oblique collision are demonstrated. Simple semi-empirical calculation methods are presented, and examples of practical applications of explosion welding and treatment are given.
 
 
Keywords: explosion welding, high-rate deformation, shock, dynamics
 
 
Received:                ??
Published:               28.11.09
 
 
References
1.             Abrahamson, G.R. (1961) Residual periodical deformations of surface under action of moving jet. Proc. of AS MI, Series E, Appl. Mechanics, 28(4), 45-55.
2.             Cowan, G.R., Holtzman, A.H. (1963) Flow configurations in colliding plates: Explosive banding. /. Appl. Phys., 34(4), 928-939.
3.             Deribas, A.A., Kudinov, V.M., Matveenkov, F.I. (1967) Effect of initial parameters on process of wave formation during explosion welding of metals. Phys. of Combustion and Explosion, 3(4), 561-568.
4.             Godunov, S.K. et al. (1971) Wave formation during explosion welding. /. Appl. Mechanics and Techn. Phys., 3, 63-73.5.           Cowan, G.R., Bergmann, O.R., Holtzman, A.H. (1971) Mechanism of bond zone wave formation in explosion cladmetals. Metallurg. Transact., 11(2), 3145-3155.
6.             Deribas, A.A. (1972) Physics of explosion strengthening and welding. Novosibirsk: Nauka.
7.             Karpenter, S. (1976) Explosion welding of metals. Minsk: Belarus.
8.             Belyaev, V.I., Kovalevsky, V.I., Smirnov, G.V. et al. (1976) High-frequency deformation of metals. Minsk: Nauka i Tekhnika.
9.             Kudinov, V.M., Koroteev, A.Ya. (1978) Explosion welding in metallurgy. Moscow: Metallurgiya.
10.           Kovalevsky, V.N., Belyaev, V.I., Smirnov, G.V. (1979) An-wendungsmoeglichkeiten des Explosionsschweissens fuer die Herstellung von Verbundmaterialen. Z. Metallkunde, 2.
11.           Zakharenko, I.D. (1990) Explosion welding of metals. Minsk: Nauka i Tekhnika.
12.           Petushkov, V.G., Simonov, V.F., Sedykh, V.S. et al. (1995) Explosion welding criteria. Cambridge.
13.           Smirnov, G.V. (1990) Effects of dynamic cumulation. Minsk: Remiko.

Suggested Citation

G.V. SMIRNOV, A.D. SHUGANOV, R.V. STEFANOVICH, A.I. YADEVICH, I.V. PETROV, A.A. KAMORNY, V.A. KONOPLYANIK, A.R. LUCHENOK, A.A. TOLOSHNY, P.T. BOGDANOVICH and O.A. DZICHKOVSKY (2009) MODELLING AND APPLICATION OF HIGH-VELOCITY EXPLOSION WELDING PROCESSES. The Paton Welding J., 11, 28-36.