The Weakest Link: Degradation of a weld through interaction with hydrogen

Jonas Cop; Charlot Depestel; Nathalie Saikali; Sharon Temmerman; Dorien Zeebroek

doi:10.25609/sure.v5.4182

The Weakest Link

Degradation of a weld through interaction with hydrogen

Authors

Jonas Cop Ghent University
Charlot Depestel Ghent University
Nathalie Saikali Ghent University
Sharon Temmerman Ghent University
Dorien Zeebroek Ghent University

DOI:

https://doi.org/10.25609/sure.v5.4182

Keywords:

Welding; hydrogen-induced cracking

Abstract

This work evaluates the effect of hydrogen on welds in martensitic steels. In-situ constant-load tensile testing of a weld of HB450 steel shows that hydrogen-induced cracks appear in the filler material, which is capable of trapping the highest amount of hydrogen, as indicated by thermal desorption spectroscopy (TDS). Further crack propagation takes place in the part of the heat affected zone (HAZ) with the highest hardness.

Additional Files

Published

2019-12-03

How to Cite

Cop, J., Depestel, C., Saikali, N., Temmerman, S., & Zeebroek, D. (2019). The Weakest Link: Degradation of a weld through interaction with hydrogen. Student Undergraduate Research E-Journal!, 5, 1–4. https://doi.org/10.25609/sure.v5.4182

Download Citation

Issue

Vol. 5 (2019): Student Research Conference 2019

Section

General Category

License

Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted under the conditions of the Creative Commons Attribution-Share Alike (CC BY-SA) license and that copies bear this notice and the full citation on the first page.