Weldability of high strength steels in wet welding conditions

1. The Standard AWS D3.6M:2010 Underwater Welding Code.Search in Google Scholar

2. Łabanowski J.: Development of underwater welding techniques. Przegląd Spawalnictwa (Welding Technology Review), 10/2008 (in Polish).Search in Google Scholar

3. Łabanowski J., Fydrych D., Rogalski G.: Underwater Welding- a review. Advances in Materials Science, 3/2008.10.2478/v10077-008-0040-3Search in Google Scholar

4. Christensen N.: The metallurgy of underwater welding. Proceedings of the International Conference „Underwater Welding”, Trondheim, Norway 1983.10.1016/B978-0-08-030537-0.50008-9Search in Google Scholar

5. Cotton H. C.: Welding under water and in the splash zone- a review. Proceedings of the International Conference „Underwater Welding”, Trondheim, Norway 1983.10.1016/B978-0-08-030537-0.50006-5Search in Google Scholar

6. Ibarra S., Grubbs C. E., Liu S.: State of the art and practiceof underwater wet welding of steel. International workshop on underwater welding of marine structures. New Orleans, USA, 1994.Search in Google Scholar

7. Zhang X., Ashida E., Shono S., Matsuda F.: Effect of shieldingconditions of local dry cavity on weld quality in underwaterNd:YAG laser welding. Journal of Materials Processing and Technology. Vol. 174, Issues 1-3, May 2006.10.1016/j.jmatprotec.2004.12.009Search in Google Scholar

8. Fydrych D., Rogalski G.: Effect of underwater local cavitywelding method conditions on diffusible hydrogen content indeposited metal. Welding International Vol. 27, Issue 3, March 2013, pages 196-202.10.1080/09507116.2011.600033Search in Google Scholar

9. Ambroziak A., Gul B.: Underwater friction bonding of overlapjoints by means of a plasticized steel pin (FHPP). Przegląd Spawalnictwa (Welding Technology Review), 9-10/2006 (in Polish).Search in Google Scholar

10. Ambroziak A., Gul B.: Investigations of underwater FHPP forwelding steel overlap joints. Archives of Civil and Mechanical Engineering 2/2007.10.1016/S1644-9665(12)60212-XSearch in Google Scholar

11. Rodriguez-Sanchez J. E., Rodriguez-Castellanos A., Perez- Guerrero F., Carbajal-Romero M. F., Liu S.: Offshore fatiguecrack repair by grinding and wet welding. Fatigue and Fracture of Engineering Materials and Structures, 34/2010.10.1111/j.1460-2695.2010.01541.xSearch in Google Scholar

12. Pessoa E., Bracarense A., Zica E., Liu S., Perez-Guerrero F.: Porosity variation along multi-pass underwater wet welds andits influence on mechanical properties. Journal of Materials Processing Technology. Vol. 179, Issues 1-3, 20 October 2006, pp. 239-243.10.1016/j.jmatprotec.2006.03.071Search in Google Scholar

13. Bohme D., Eisenbeis C.: Investigation into the credibility of theimplant test when used to assess the cold cracking sensitivityof underwater wet welds. Proceedings of the International Conference „Welding Under Extreme Conditions”, Helsinki, Finland 1989.Search in Google Scholar

14. Hoffmeister H., Kuster K.: Process variables and propertiesof underwater wet shielded metal arc laboratory welds. Proceedings of the International Conference „Underwater Welding”, Trondheim, Norway 1983.10.1016/B978-0-08-030537-0.50010-7Search in Google Scholar

15. Fydrych D., Rogalski G.: Effect of shielded-electrode wetwelding conditions on diffussion hydrogen content in depositedmetal. Welding International Vol. 25, Iss. 3, March 2011, p. 166-171.10.1080/09507116.2010.540828Search in Google Scholar

16. Suga Y.: Effect of diffusible hydrogen on mechanical propertiesof underwater welded joints - study on improving themechanical properties of underwater welded joints (the 1streport). Transactions of the Japan Welding Society 10/1985.Search in Google Scholar

17. Brink S. H., Boltje G. W.: Cold cracking susceptibility ofwelds obtained by wet underwater welding. Proceedings of the International Conference „Underwater Welding”, Trondheim, Norway 1983.10.1016/B978-0-08-030537-0.50029-6Search in Google Scholar

18. Fydrych D.: Cold cracking of steel welded in water environment. Przegląd Spawalnictwa (Welding Technology Review), 10/2012 (in Polish).Search in Google Scholar

19. Liu S.: Fundamentos de saldatura humeda. Seminario de saldatura humeda. Campeche, Mexico 1999.Search in Google Scholar

20. Global Divers & Contractors : Joint industry underwaterwelding development program. Phase I - final report. Colorado School of Mines, 1995.Search in Google Scholar

21. Łomozik M.: Morphology and toughness of heat affected zoneregions of steel welded joints in the aspect of temper beadsapplication. Uczelniane Wydawnictwa Naukowo-Dydaktyczne AGH (Scientific and Didactic Publishing House, Cracow Mining and Metallurgy Academy), Krakow 2007 (in Polish).Search in Google Scholar

22. The Standard PN-EN ISO 17642-2:2005. Destructive tests onwelds in metallic materials. Cold cracking tests for weldments. Arc welding processes. Part 2: Self-restraint tests. (in Polish).Search in Google Scholar

23. The Standard PN-EN ISO 17637:2011. Non-destructive testingof welds. Visual testing of fusion-welded joints (in Polish).Search in Google Scholar

24. The Standard PN-EN 571-1:1999. Non-destructive testing. Penetrant testing. Part 1: General principles (in Polish).Search in Google Scholar

25. The Standard PN-EN ISO 23277:2010. Non-destructive testingof welds. Penetrant testing of welds. Acceptance levels (in Polish).Search in Google Scholar

26. The Standard PN-EN 1321:2000. Destructive test on welds inmetallic materials. Macroscopic and microscopic examinationof welds (in Polish).Search in Google Scholar

27. The Standard PN EN ISO 9015-1:2011 Destructive tests onwelds in metallic materials. Hardness testing. Hardness test onarc welded joints (in Polish).Search in Google Scholar

28. Tasak E.: Weldability of steel (in Polish ). Wydawnictwo Fotobit (Fotobit Publishers), Cracow 2002.Search in Google Scholar

29. Rogalski G., Łabanowski J.: Certification of divers-weldersfor underwater wet welding in hyperbaric conditions. Biuletyn Instytutu Spawalnictwa (Bulletin of Polish Welding Institute), 1/2011 (in Polish).Search in Google Scholar

30. Ćwiek J.: Hydrogen assisted cracking of high-strength weldablesteels in sea-water. Journal of Materials Processing Technology, Vol. 164-165 (2005), p. 1007-1013.10.1016/j.jmatprotec.2005.02.083Search in Google Scholar

31. Fydrych D., Łabanowski J.: Determining diffusible hydrogenamounts using the mercury method. Welding International Vol. 26, Iss. 9, September 2012, p. 697-702.10.1080/09507116.2011.592682Search in Google Scholar