| 2005 №07 (02) | 2005 №07 (04) |
The Paton Welding Journal, 2005, #7, 13-16 pages
Mechanisms of joint boundary shaping in explosion welding
Yu.I. Fadeenko, L.D. Dobrushin, S.Yu. Illarionov
E.O. Paton Electric Welding Institute of the NASU. 11 Kazymyr Malevych Str., 03150, Kyiv, Ukraine.Abstract
New classification is proposed for explosion welding conditions and corresponding shapes of joint boundaries, based on the ratio of inertia forces to strength forces within the welded joint formation zone. This ratio can be used to allow for dynamic characteristics of strength of the metal pairs being welded, in optimization of the explosion welding conditions and shapes of the resulting joint boundaries.
Keywords: explosion welding, weldability region, joint formation zone, forces of inertia, strength forces, joint bounderries
References
1. Kobelev, A.G., Lysak, V.I., Chernyshev, V.N. et al. (2002) Manufacturing of metallic laminated composite materials. Moscow: Intermet Engineering.2. Deribas, A.A. (1980) Physics of explosion strengthening and welding. Novosibirsk: Nauka.
3. Kudinov, V.M., Koroteev, A.Ya. (1978) Explosion welding in metallurgy. Moscow: Metallurgiya.
4. Surov, V.S. (1988) Oblique collision of metal plates. Fizika Goreniya i Vzryva, 24(6), 115-120.
5. Bondar, M.P. (1995) Type of localisation of plastic deformation on contacts, which defines the strong joint formation. Ibid., 5, 122–128.
6. Dobrushin, L.D., Fadeenko, Yu.I., Petushkov, V.G. (2002) Special conditions for joint formation in metal welding by a shock wave. The Paton Welding J., 2, 28–32.
7. Bondar, M.P. (1998) Peculiarities of structure formation at significant high-rate deformations. Fizich. Mezomekhanika, 1(1), 37–55.
8. Bondar, M.P. (2000) Structure formation and properties of materials made by high-rate methods. Ibid., 3(6), 75–87.
9. Bondar, M.P. (2002) Evolution of microstructure in dynamic loading of metals. Ibid., 38(2), 125–134.
10. Stepanov, G.V. (1991) Elastic-plastic deformation and fracture of materials at pulse loading. Kiev: Naukova Dumka.
11. Zubov, V.I., Stepanov, G.V., Shirokov, A.V. (2003) Influence of deformation rate on yield strength of steels of different strength. Problemy Prochnosti, 5, 113–121.
12. Petushkov, V.G., Kudinov, V.M., Fadeenko, Yu.I. (1993) Explosion treatment of metal structure welded joints. Moscow: Metallurgiya.
13. Voropaev, S.I., Smirnov, S.L., Filippov, I.A. et al. (2002) Stratified traces after «spot» pulse sources. Izvestiya Ros. AN. Fizika Atmosfery i Okeana, 38(3), 402–410.
14. Kuzmin, S.V., Lysak, V.I., Chugunov, E.A. et al. (2000) Welded joint formation in explosion welding of metals. The Paton Welding J., 11, 26–30.
Suggested Citation
Yu.I. Fadeenko, L.D. Dobrushin, S.Yu. Illarionov (2005) Mechanisms of joint boundary shaping in explosion welding. The Paton Welding J., 07, 13-16.The cost of subscription/purchase order journals or individual articles
| Journal/Currency | Annual Set | 1 issue printed |
1 issue |
one article |
| TPWJ/USD | 384 $ | 32 $ | 28 $ | 28 $ |
| TPWJ/EUR | 348 € | 29 € | 24 € | 24 € |
| TPWJ/UAH | 7200 UAH | 600 UAH | 600 UAH | 600 UAH |
| TDNK/UAH | 1680 UAH | 420 UAH | free access | free access |
| TDNK/USD | 128 $ | 32 $ | free access | free access |
| TDNK/EUR | 116 € | 29 € | free access | free access |
TPWJ = «PATON WELDING JOURNAL» - 12 issues per year;
TDNK = «Technical Diagnostics and Non-Destructive Testing» - 4 issues per year;
SEM = «Electrometallurgy Today» - 4 issues per year, operates under a diamond open access model, providing free and unrestricted access;
AS = «Automatic Welding» - 6 issues per year, operates under a diamond open access model, providing free and unrestricted access/