Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C

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Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C. / Eichinger, Matthias; Pengg, Johann; Zwittnig, Dino et al.
in: Corrosion science, Jahrgang 235.2024, Nr. 15 July, 112219, 17.06.2024.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Eichinger, M, Pengg, J, Zwittnig, D & Mori, GK 2024, 'Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C', Corrosion science, Jg. 235.2024, Nr. 15 July, 112219. https://doi.org/10.1016/j.corsci.2024.112219

APA

Eichinger, M., Pengg, J., Zwittnig, D., & Mori, G. K. (2024). Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C. Corrosion science, 235.2024(15 July), Artikel 112219. Vorzeitige Online-Publikation. https://doi.org/10.1016/j.corsci.2024.112219

Vancouver

Eichinger M, Pengg J, Zwittnig D, Mori GK. Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C. Corrosion science. 2024 Jun 17;235.2024(15 July):112219. Epub 2024 Jun 17. doi: 10.1016/j.corsci.2024.112219

Author

Eichinger, Matthias ; Pengg, Johann ; Zwittnig, Dino et al. / Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C. in: Corrosion science. 2024 ; Jahrgang 235.2024, Nr. 15 July.

Bibtex - Download

@article{7cb0ef20d97d45889e60e95c1c3c2311,
title = "Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C",
abstract = "Austenitic stainless steel 1.4435, a candidate material for high-pressure tubing for hydrogen applications, was investigated in two different stages of cold deformation (0 and 27 %) regarding its hydrogen embrittlement tendency. The determination of effective diffusion coefficients revealed slightly increased diffusion kinetics at 60°C for the cold-reduced material (8.0 · 10−15 m²/s) compared to the solution annealed one (5.0 · 10−15 m²/s). High-pressure gaseous hydrogen charging shows no differences regarding the degree of cold deformation with a maximum hydrogen concentration of 112 wt.-ppm. Furthermore, a significant ductility loss expressed by the ratio of the reduction of area was observed.",
keywords = "austenitic stainless steel, high-pressure charging, hydrogen embrittlement, Hydrogen uptake",
author = "Matthias Eichinger and Johann Pengg and Dino Zwittnig and Mori, {Gregor Karl}",
note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",
year = "2024",
month = jun,
day = "17",
doi = "10.1016/j.corsci.2024.112219",
language = "English",
volume = "235.2024",
journal = "Corrosion science",
issn = "0010-938X",
publisher = "Elsevier",
number = "15 July",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Hydrogen diffusivity, uptake and embrittlement of solution annealed and cold deformed austenitic stainless steel 1.4435 at hydrogen pressures up to 1000 bar and 200 °C

AU - Eichinger, Matthias

AU - Pengg, Johann

AU - Zwittnig, Dino

AU - Mori, Gregor Karl

N1 - Publisher Copyright: © 2024 The Author(s)

PY - 2024/6/17

Y1 - 2024/6/17

N2 - Austenitic stainless steel 1.4435, a candidate material for high-pressure tubing for hydrogen applications, was investigated in two different stages of cold deformation (0 and 27 %) regarding its hydrogen embrittlement tendency. The determination of effective diffusion coefficients revealed slightly increased diffusion kinetics at 60°C for the cold-reduced material (8.0 · 10−15 m²/s) compared to the solution annealed one (5.0 · 10−15 m²/s). High-pressure gaseous hydrogen charging shows no differences regarding the degree of cold deformation with a maximum hydrogen concentration of 112 wt.-ppm. Furthermore, a significant ductility loss expressed by the ratio of the reduction of area was observed.

AB - Austenitic stainless steel 1.4435, a candidate material for high-pressure tubing for hydrogen applications, was investigated in two different stages of cold deformation (0 and 27 %) regarding its hydrogen embrittlement tendency. The determination of effective diffusion coefficients revealed slightly increased diffusion kinetics at 60°C for the cold-reduced material (8.0 · 10−15 m²/s) compared to the solution annealed one (5.0 · 10−15 m²/s). High-pressure gaseous hydrogen charging shows no differences regarding the degree of cold deformation with a maximum hydrogen concentration of 112 wt.-ppm. Furthermore, a significant ductility loss expressed by the ratio of the reduction of area was observed.

KW - austenitic stainless steel

KW - high-pressure charging

KW - hydrogen embrittlement

KW - Hydrogen uptake

UR - http://www.scopus.com/inward/record.url?scp=85196284422&partnerID=8YFLogxK

U2 - 10.1016/j.corsci.2024.112219

DO - 10.1016/j.corsci.2024.112219

M3 - Article

VL - 235.2024

JO - Corrosion science

JF - Corrosion science

SN - 0010-938X

IS - 15 July

M1 - 112219

ER -

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