Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study

E. Akiyama; S. Li

doi:10.1149/07529.0023ecst

Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study

E. Akiyama, S. Li

Materials Design Division

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

8 Citations (Scopus)

Abstract

Electrochemical hydrogen permeation tests were carried out under potentiostatic hydrogen charging conditions in various solutions, and the hydrogen entry behavior was compared with that of galvanostatic method. The relationship between hydrogen permeation current density and potential was similar in potentiostatic and galvanostatic methods and wide range of hydrogen concentration could be covered as well as galvanostatic method by varying NH4SCN content and potential. However, slight differences in hydrogen permeation current density and efficiency of hydrogen entry were seen between the methods, and the stability of hydrogen entry of potentiostatic method was slightly higher than that of galvanostatic method. In both methods, hydrogen permeation current density tended to increase with time in a NH4SCN containing solution suggesting that it is recommended to measure resulted hydrogen content by means of thermal desorption analysis for accuracy, though the relationship between hydrogen permeation current density and potential can be used as a rough standard.

Original language	English
Title of host publication	Atmospheric -and- Marine Corrosion
Editors	A. Nishikata, M. Sakairi, I. Cole, C. Leygraf, R. Srinivasan, E. Tada, H. Katayama, M. Itagaki
Publisher	Electrochemical Society Inc.
Pages	23-31
Number of pages	9
Edition	29
ISBN (Electronic)	9781607685395
DOIs	https://doi.org/10.1149/07529.0023ecst
Publication status	Published - 2016
Event	Symposium on Atmospheric -and- Marine Corrosion - PRiME 2016/230th ECS Meeting - Honolulu, United States Duration: 2016 Oct 2 → 2016 Oct 7

Publication series

Name	ECS Transactions
Number	29
Volume	75
ISSN (Print)	1938-6737
ISSN (Electronic)	1938-5862

Other

Other	Symposium on Atmospheric -and- Marine Corrosion - PRiME 2016/230th ECS Meeting
Country/Territory	United States
City	Honolulu
Period	16/10/2 → 16/10/7

ASJC Scopus subject areas

Engineering(all)

Access to Document

10.1149/07529.0023ecst

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Akiyama, E., & Li, S. (2016). Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study. In A. Nishikata, M. Sakairi, I. Cole, C. Leygraf, R. Srinivasan, E. Tada, H. Katayama, & M. Itagaki (Eds.), Atmospheric -and- Marine Corrosion (29 ed., pp. 23-31). (ECS Transactions; Vol. 75, No. 29). Electrochemical Society Inc.. https://doi.org/10.1149/07529.0023ecst

Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study. / Akiyama, E.; Li, S.
Atmospheric -and- Marine Corrosion. ed. / A. Nishikata; M. Sakairi; I. Cole; C. Leygraf; R. Srinivasan; E. Tada; H. Katayama; M. Itagaki. 29. ed. Electrochemical Society Inc., 2016. p. 23-31 (ECS Transactions; Vol. 75, No. 29).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Akiyama, E & Li, S 2016, Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study. in A Nishikata, M Sakairi, I Cole, C Leygraf, R Srinivasan, E Tada, H Katayama & M Itagaki (eds), Atmospheric -and- Marine Corrosion. 29 edn, ECS Transactions, no. 29, vol. 75, Electrochemical Society Inc., pp. 23-31, Symposium on Atmospheric -and- Marine Corrosion - PRiME 2016/230th ECS Meeting, Honolulu, United States, 16/10/2. https://doi.org/10.1149/07529.0023ecst

Akiyama E, Li S. Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study. In Nishikata A, Sakairi M, Cole I, Leygraf C, Srinivasan R, Tada E, Katayama H, Itagaki M, editors, Atmospheric -and- Marine Corrosion. 29 ed. Electrochemical Society Inc. 2016. p. 23-31. (ECS Transactions; 29). doi: 10.1149/07529.0023ecst

Akiyama, E. ; Li, S. / Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study. Atmospheric -and- Marine Corrosion. editor / A. Nishikata ; M. Sakairi ; I. Cole ; C. Leygraf ; R. Srinivasan ; E. Tada ; H. Katayama ; M. Itagaki. 29. ed. Electrochemical Society Inc., 2016. pp. 23-31 (ECS Transactions; 29).

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abstract = "Electrochemical hydrogen permeation tests were carried out under potentiostatic hydrogen charging conditions in various solutions, and the hydrogen entry behavior was compared with that of galvanostatic method. The relationship between hydrogen permeation current density and potential was similar in potentiostatic and galvanostatic methods and wide range of hydrogen concentration could be covered as well as galvanostatic method by varying NH4SCN content and potential. However, slight differences in hydrogen permeation current density and efficiency of hydrogen entry were seen between the methods, and the stability of hydrogen entry of potentiostatic method was slightly higher than that of galvanostatic method. In both methods, hydrogen permeation current density tended to increase with time in a NH4SCN containing solution suggesting that it is recommended to measure resulted hydrogen content by means of thermal desorption analysis for accuracy, though the relationship between hydrogen permeation current density and potential can be used as a rough standard.",

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AB - Electrochemical hydrogen permeation tests were carried out under potentiostatic hydrogen charging conditions in various solutions, and the hydrogen entry behavior was compared with that of galvanostatic method. The relationship between hydrogen permeation current density and potential was similar in potentiostatic and galvanostatic methods and wide range of hydrogen concentration could be covered as well as galvanostatic method by varying NH4SCN content and potential. However, slight differences in hydrogen permeation current density and efficiency of hydrogen entry were seen between the methods, and the stability of hydrogen entry of potentiostatic method was slightly higher than that of galvanostatic method. In both methods, hydrogen permeation current density tended to increase with time in a NH4SCN containing solution suggesting that it is recommended to measure resulted hydrogen content by means of thermal desorption analysis for accuracy, though the relationship between hydrogen permeation current density and potential can be used as a rough standard.

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Electrochemical hydrogen permeation tests under conventional potentiostatic hydrogen charging conditions for hydrogen embrittlement study

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