The influence of hydrostatic stress states on the hydrogen solubility in martensitic steels

The influence of hydrostatic stress states on the hydrogen solubility in martensitic steels

A specific dependency of elastic tensile stress on the hydrogen solubility is identified for martensitic steels. The lattice hydrogen concentration under applied stress may be underestimated when predicted by a classical law which associates hydrostatic stress with the partial molar volume of hydrog...

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Veröffentlicht in:Scripta materialia 2014-08, Vol.84-85, p.23-26
Hauptverfasser: Guedes, D., Oudriss, A., Frappart, S., Courlit, G., Cohendoz, S., Girault, P., Creus, J., Bouhattate, J., Metsue, A., Thebault, F., Delattre, L., Koschel, D., Feaugas, X.
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Sprache:eng
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Condensed Matter
Elastic stress field
Hydrogen solubility
Martensitic steels
Materials Science
Partial molar volume of hydrogen
Physics
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container_end_page 26
container_issue
container_start_page 23
container_title Scripta materialia
container_volume 84-85
creator Guedes, D.
Oudriss, A.
Frappart, S.
Courlit, G.
Cohendoz, S.
Girault, P.
Creus, J.
Bouhattate, J.
Metsue, A.
Thebault, F.
Delattre, L.
Koschel, D.
Feaugas, X.
description A specific dependency of elastic tensile stress on the hydrogen solubility is identified for martensitic steels. The lattice hydrogen concentration under applied stress may be underestimated when predicted by a classical law which associates hydrostatic stress with the partial molar volume of hydrogen. We have explored the impact of elastic distortions on hydrogen solubility from two different sources: internal stresses arising from heterogeneous microstructures and elastic fields around vacancy clusters. Only the latter seems to be in reasonable agreement with our results.
doi_str_mv 10.1016/j.scriptamat.2014.04.006
format Article
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subjects Condensed Matter
Elastic stress field
Hydrogen solubility
Martensitic steels
Materials Science
Partial molar volume of hydrogen
Physics
title The influence of hydrostatic stress states on the hydrogen solubility in martensitic steels
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