The Paton Welding Journal, 2000, #9, 139-144 pages
Recent developments of steel and welding materials capable of improving structural integrity
Yu. Fujita1, N. Yurioka2
1Japan Welding Engineering Society, Tokyo, Japan
2Nippon Stool Corporation, Chiba, Japan
Abstract
A number of problems associated with the creation of
high-reliability engineering structures is considered. They
include the peculiarities of application of structural materials
of the new generation which is characterized by a high strength,
corrosion resistance, high-temperature and heat resistance. The
ways of development of materials for their welding are defined.
It is shown that a simultaneous development of steels and welding
consumables is a very important link in the process of
improvement of reliability of welded joints from the point of
view of resistance to tough and brittle fracture, fatigue,
corrosion and/or creep.
Keywords: steel, thermomechanical treatment, welding consumables, weldability
References
1. Shinada, K., Horii, Y., Yurioka, N. (1992) Welding J., 71, 253.
2. Kobayashi, E. (1985) Proc. of Symp. on Welding Me tallurgy of TMCP steels. JWS.
3. Okamura, 55, Tanaka, M., Okushima, M. et al. (1994) Current advances in materials & processes. ISIJ, 7, 523.
4. Jcsseman, R. J., Murphy, G. J. (1983) HSLA Steels, Technology and Applications.
5. Irving. B. (1995) Welding J., 4, 39.
6. Miura, T., Katoh, T., Kamada M. (1999) IIW Doc. IX- 1959-99.
7. Watanbe, I., Kojima, T. (1981) J. JWS, 50, 778.
8. Kojima, K. et al. (1999) In: Proc, of I he 18th In.t. Conf. on Off shore Mechanics and Arctic Engineering, Canada, St. John’s, July. Newfoundland.
9. Funakoshi, T. etal. (1977) Tetsu-to Hagane, 2, 105.
10. Homma, H., Ohkita, S., Matsuda, S. et al. (1987) Welding J., 10, 301.
11. Arimochi, K. (1989) Transact, of JWS, 20, 7.
12. Ishikawa, K., Hagiwara, Y., Aihara, 8. (1996) J. Soc. Naval Architects of Japan, 177, 259.
13. Kihira, H. et al. (2000) Zairyo-to Kankyo, 49, 30.
14. Kanaya, K., Takeda, T., Inoue, T. (1986) Testsu-to Наganef 72, 1532.
15. Abe, H. etal. (1995) IIW Doc.-IX-571-95.
16. Kagaya, Y. et al. (1991) Transact, of Japan Soc. Civil Engineers, 435, 79.
17. Ueda, M. et al. (1996) In: Paper Corrosion 96 NACE Int. Anual Conf.
18. Richert, J. P. et al. (1988) Materials Performance.
19. Kamata, Y. et al. (1991) Technical Report of Sumitomo Metals, 7, 23.
20. Ishiguro, T., Ohnishi, K., Watanabe, J. (1986) Tetsu-to Hagane, 72, 70.
21. Shimoura, J. et al. (1988) In: Proc, of 6th Int. Conf, on Pressure Vessel Technology. Beijing.
22. Tsuchida, Y., Okamoto, K., Tokunaga, T. (1995) Iron Steel Inst, of Japan, 35, 309.
23. Naoi, H. et. al. (1991) Seitetsu Kenkyu, 340, 302.
24. Morimoto, H. (1999) Development of welding materials for W-bearing 9Cr creep resistant steels. Doctoral thesis to Osaka University.
25. Ohashi, M. et al. (1989) Seitetsu Kenkyu. 344, 17.
Suggested Citation
Yu. Fujita,
N. Yurioka (2000) Recent developments of steel and welding materials capable of improving structural integrity.
The Paton Welding J., 09, 139-144.