The Paton Welding Journal, 2011, #2, 43-47 pages
CAPABILITIES OF APPLICATION OF HIGH-STRENGTH LOW-ALLOY PIPE STEELS FOR MANUFACTURE OF HIGH-PRESSURE VESSELS
V.M. KULIK, M.M. SAVITSKY, V.P. ELAGIN and E.L. DEMCHENKO
E.O. Paton Electric Welding Institute, NASU, Kiev, Ukraine
Abstract
Technical capabilities and rationality of manufacturing mobile combined high pressure vessels of small specific weight are considered. Low-alloy low-carbon steels of higher and high strength and large diameter pipes can be used for shell billets. Butt joints acceptable in terms of properties and cyclic fatigue life are produced by multilayer submerged-arc welding, and they can be improved by arc treatment with a partial melting. Welded case is subjected to annealing without performing high-temperature strengthening and is reinforced along the cylindrical part by a composite material of a high specific strength.
Keywords: submerged-arc welding, high-strength low-alloy steels, high-pressure vessels, welded joints, argon arc treatment, thermal cycle, structure, mechanical properties, cyclic life, specific weight
Received: ??.??.??
Published: 28.02.11
References
1. Paton, B.E., Savytsky, M.M., Kulyk, V.M. et al. Cylinder. Pat. 18874 Ukraine. Publ. 25.12.1997.
2. Paton, B.E., Savytsky, M.M., Kulyk, V.M. et al. Pressure cylinder. Pat. 61162 Ukraine. Publ. 17.11.2003.
3. Savitsky, M.M., Savichenko, A.A., Kulik, V.M. et al. (2007) Light-weight welded cylinders for motor transport. The Paton Welding J., 1, 43.
4. (1998) Rules of manufacturing and safe operation of pressure vessels. Kyiv.
5. Tukhbatullin, F.B., Galiullin, Z.T., Karpov, S.V. et al. (2001) Low-alloy steels for main gas pipelines and their resistance to fracture. In: Inform. Review on Transport and Overhead Gas Storing Series. Moscow: IRTs Gazprom.
6. Bauer, D., Flus, P., Amoris, E. et al. (2006) Microstructure and characteristics of pipe steels after thermomechanical treatment. Novosti Chyorn. Metallurgii za Rubezhom, 4, 65-76.
7. Nabuki, I., Shigeri, E., Jos, K. (2006) Pipes UOE with high characteristics for main pipelines. Ibid., 77-80.
8. Makarov, E.L. (1981) Cold cracks in welding of alloy steels. Moscow: Mashinostroenie.
9. Malyshevsky, V.A., Grishchenko, L.V., Baryshnikov, A.P. (1999) Welding consumables and technologies of low-alloy steels. Voprosy Materialovedeniya, 20(3), 46-62.
10. Zakharova, I.V., Chichkarev, E.A., Vasiliev, V.G. et al. (2001) Structure and properties of HAZ metal of low-alloyed pipe steels modified with calcium. The Paton Welding J., 8, 14-17.
Suggested Citation
V.M. KULIK, M.M. SAVITSKY, V.P. ELAGIN and E.L. DEMCHENKO (2011) CAPABILITIES OF APPLICATION OF HIGH-STRENGTH LOW-ALLOY PIPE STEELS FOR MANUFACTURE OF HIGH-PRESSURE VESSELS.
The Paton Welding J., 02, 43-47.