Hydrogen embrittlement characteristicsin cold-drawn high-strength stainless steel wires
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in: Corrosion science, Jahrgang 216.2023, Nr. 15 May, 111109, 13.03.2023.
Publikationen: Beitrag in Fachzeitschrift › Artikel › Forschung › (peer-reviewed)
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TY - JOUR
T1 - Hydrogen embrittlement characteristicsin cold-drawn high-strength stainless steel wires
AU - Truschner, Mathias
AU - Kroll, Robin
AU - Eichinger, Matthias
AU - Keplinger, Andreas
AU - Engelberg, Dirk L.
AU - Mori, Gregor Karl
PY - 2023/3/13
Y1 - 2023/3/13
N2 - Hydrogen uptake and embrittlement characteristics of a cold-drawn austenitic stainless steel wire were investigated. Slow strain rate testing and fracture surface analysis were applied to determine the hydrogen embrittlement resistance, providing an apparent decrease in resistance to hydrogen embrittlement for a 50% degree of cold deformation. The hydrogen content was assessed by thermal desorption and laser-induced breakdown spectroscopy establishing a correlation between the total absorbed hydrogen and the intensity of near-surface hydrogen. The sub-surface hydrogen content of the hot-rolled specimen was determined to be 791 wt.ppm.
AB - Hydrogen uptake and embrittlement characteristics of a cold-drawn austenitic stainless steel wire were investigated. Slow strain rate testing and fracture surface analysis were applied to determine the hydrogen embrittlement resistance, providing an apparent decrease in resistance to hydrogen embrittlement for a 50% degree of cold deformation. The hydrogen content was assessed by thermal desorption and laser-induced breakdown spectroscopy establishing a correlation between the total absorbed hydrogen and the intensity of near-surface hydrogen. The sub-surface hydrogen content of the hot-rolled specimen was determined to be 791 wt.ppm.
U2 - 10.1016/j.corsci.2023.111109
DO - 10.1016/j.corsci.2023.111109
M3 - Article
VL - 216.2023
JO - Corrosion science
JF - Corrosion science
SN - 0010-938X
IS - 15 May
M1 - 111109
ER -