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Development of Preheat-free GMA Welding Wire for HSLA-100 Steel

HSLA-100강용 무예열 GMA 용접재료 개발

  • Published : 2011.04.30

Abstract

Keywords

References

  1. S. Deshimaru, I. Hirai, K. Amano, S. Ueda, T. Uemura, K. Tsubota: Production of heavy-gauge steel plates suitable for high-heat input welding in the arctic region, Kawasaki Steel Technical Report, no. 17(Oct. 1987), 34
  2. Y. Tomita, T. Haze, N. Saito, T. Tsuzuki, Y. Tokunaga, K. Okamoto: Development of 590-MPa class high tensile strength steel with superior HAZ toughness by copper precipitation hardening, ISIJ Int., 34 (1994), 836 https://doi.org/10.2355/isijinternational.34.836
  3. K. Hirata, T. Nakagawa, S. Takeda, Y. Hashi, M. Tada: World's first development and application of HTSS(high tensile strength steel) with yield stress of 47kgf/$mm^2$ to actual ship hull structure, Mitsubishi Heavy Industries Technical Review, 44 (2007), 38
  4. S. Suzuki, K. Ichimiya, T. Akita: High tensile strength steel plates with excellent HAZ toughness for shipbuilding, JFE Technical Report, no. 5(Mar. 2005), 24
  5. K. Ichimiya, H. Sumi, T. Hirai: 460MPa-yield-strengthclass steel plate with JFE EWEL technology for large-heat-input welding, JFE Technical Report, no. 11(Jube. 2008), 7
  6. Hee Jin Kim, Bong Yong Kang: Consideration of preheating temperature criteria for HY-steels, J. of KWS, 20 (2002), 631 (in Korean)
  7. MIL-S-16216: Steel plate, alloy, structural, high yield strength (HY-80 and HY-100)
  8. MIL-S-24371: Steel plate, alloy, structural, high yield strength (HY-130)
  9. MIL-S-24645: Steel plate, sheet, or coil age-hardening alloy, structural, high yield strength (HSLA-80 and HSLA-100)
  10. KSD 9515-3001-1: High strength low alloy steel, weldable
  11. E. J. Czyryca, R. e. Link, R. J. Wong, D. A. Aylor, T. W. Montemarano, J. P. Gudas: Development and certification of HSLA-100 steel for naval ship construction, Naval Engineering J., 102-3 (1990), 63 https://doi.org/10.1111/j.1559-3584.1990.tb02632.x
  12. H. J. Kim, B. Y. Kang: Effect of microstructural variation on weld metal cold cracking of HSLA-100 steel, ISIJ Int., 43 (2003), 706 https://doi.org/10.2355/isijinternational.43.706
  13. A. Cullison: Two paths, one goal: a consumable to weld HSLA 100, Welding J., 73-1 (1994), 51
  14. J. J. DeLoach, C. Null, S. Fiore, P. Konkol: The right welding wire could help the U. S. navy save millions, Welding J., 78-6 (1999), 55
  15. K. Sampath: Constraints-based modeling enables successful development of a welding electrode specification for critical navy applications, Welding J., 84 (2005), 131s
  16. Jun-suck Seo, Hyung Kun Park, C. H. Lee, Hee Jin Kim: Development of high Strength GMA welding wire with ultra-low carbon content, J. of KWJS, to be published
  17. Tae-won Park, Young-beum Song, Jin-young Kim, Sung-ho Yang, Chul-gyu Park, Jun-suck Seo, Hee Jin Kim: Explosion Bulge test underwater of 800MPa grade pre-heat free welding plate, J. of KWJS, 28 (2010), 671 (in Korean) https://doi.org/10.5781/KWJS.2010.28.6.063
  18. MIL-E-23765/2E(SH): Electrodes and rods-welding, bare, solid, or alloy cored: and fluxes, low alloy steel
  19. ASTM E 604: Standard test method for dynamic tear testing of metallic materials