The Paton Welding Journal, 2011, #10, 5-9 pages
RESISTANCE OF WELDS ON THIN-SHEET ALUMINIUM ALLOYS TO INITIATION AND PROPAGATION OF SERVICE CRACKS
A.G. POKLYATSKY
E.O. Paton Electric Welding Institute, NASU, Kiev, Ukraine
Abstract
Resistance friction stir and TIG welds on ductile low aluminium alloys and high-strength multi-component aluminium alloys 1.8 mm thick to initiation and propagation of cracks was determined by subjecting specimens comprising stress raisers to tension. It was shown that the welds made without metal melting have a higher resistance to service cracks.
Keywords: friction stir welding, TIG welding, thin-sheet aluminium alloys, service cracks
Received: ??.??.??
Published: 28.10.11
References
1. Rabkin, D.M., Lozovskaya, A.V., Sklabinskaya, I.E. (1992) Metals science of welding of aluminium and its alloys. Ed. by V.N. Zamkov. Kiev: Naukova Dumka.
2. Mashin, V.S., Poklyatsky, A.G., Fedorchuk, V.E. (2005) Mechanical properties of aluminium alloys in consumable and nonconsumable electrode arc welding. The Paton Welding J., 9, 39-45.
3. Klimenko, Yu.V. Method of friction welding of metals. USSR author's cert. 195846. Int. Cl. 23 B k 35/02. Publ. 04.05.67.
4. Thomas, W.M., Nicholas, E.D., Needham, J.C. Friction stir butt welding. Int. Pat. Appl. PCT/GB 92/02203. Publ. 1991.
5. Pietras, A., Zadroga, L. (2003) Rozwoj metody zdrzewania tarciowego z mieszaniem materialu zgrzeiny (FSW) i mozliwosci jej zastosowania. Byuletyn Instytutu Spawalnictwa w Gliwicach, 5, 148-154.
6. Tsumura, T., Komazaki, T., Nakata, K. (2006) Structure and mechanical properties of ADC12 and A5083 dissimilar friction stir welded joints. Transact. of JWRI, 1, 53-56.
7. Polovtsev, V.A., Shtrikman, M.M., Shilo, G.V. et al. (2005) Service characteristics of 1201 and AMg6 aluminium alloy joints made by friction welding. Svarochn. Proizvodstvo, 2, 8-14.
8. Kluken, A., Ranes, M. (1995) Aluminium bridge constructions - welding technology and fatigue properties. Svetsaren, 3, 13-15.
9. Ericsson, M., Sandstrom, R. (2003) Influence of melting speed on the fatigue of friction stir welds, and comparison with MIG and TIG. Int. J. Fatigue, 25, 1379-1387.
10. Enomoto, M. (2003) Friction stir welding: research and industrial applications. Welding Int., 5, 341-345.
11. Shtrikman, M.M., Polovtsev, V.A., Shilo, G.V. et al. (2004) Friction welding of sheet structures of aluminium alloys 1201 and AMg6. Svarochn. Proizvodstvo, 4, 41-47.
12. Lanciotti, A., Vitali, F. (2003) Characterization of friction welded joints in aluminium alloy 6082-T6 plates. Welding Int., 8, 624-630.
13. Jata, K.V., Sankaran, K.K., Ruschau, J.J. (2000) Friction stir welding effects on microstructure and fatigue of aluminium alloy 7050-T7451. Metallurg. Transact. A, 31, 2181-2192.
14. Kachanov, L.M. (1974) Principles of fracture mechanics. Moscow: Nauka.
Suggested Citation
A.G. POKLYATSKY (2011) RESISTANCE OF WELDS ON THIN-SHEET ALUMINIUM ALLOYS TO INITIATION AND PROPAGATION OF SERVICE CRACKS.
The Paton Welding J., 10, 5-9.