SN Applied Sciences (Jun 2020)

Effect of the water depth on the hydrogen content in SMAW wet welded joints

  • Jan Klett,
  • Vitali Hecht-Linowitzki,
  • Oliver Grünzel,
  • Emily Schmidt,
  • Hans Jürgen Maier,
  • Thomas Hassel

DOI
https://doi.org/10.1007/s42452-020-3066-8
Journal volume & issue
Vol. 2, no. 7
pp. 1 – 14

Abstract

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Abstract Hydrogen-induced cold cracking is a huge challenge in underwater wet welding. In the present study, the influence of water depth on the diffusible and residually stored hydrogen content is investigated for the case of underwater wet shielded metal arc welding. The welding is carried out in a simulated water depth of 5, 20, 40, and 60 m with four stick electrodes specifically developed for underwater wet welding. The influence of the welding current, the arc voltage and the electrode’s composition on the diffusible hydrogen content are considered. To obtain reproducible welding conditions, a fully automated multi-axis welding system is used inside a pressure chamber. The water depth is simulated by setting the internal pressure up to 6 bar, equivalent to 60 m water depth. A large amount of samples are analysed and statistical method are used to evaluate the results. The results show a significant reduction of the diffusible hydrogen and an increase of residual hydrogen in the joining zone with increasing water depth.

Keywords