Hydrogen transport and embrittlement in 300 M and AerMet100 ultra high strength steels
Date published
2010-05-01T00:00:00Z
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Elsevier Science B.V., Amsterdam.
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Article
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0010-938X
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D. Figueroa, M.J. Robinson, Hydrogen transport and embrittlement in 300 M and AerMet100 ultra high strength steels, Corrosion Science, Volume 52, Issue 5, May 2010, Pages 1593-1602
Abstract
This paper describes how hydrogen transport affects the severity of hydrogen embrittlement in 300 M and AerMet100 ultra high strength steels. Slow strain rate tests were carried out on specimens coated with electrodeposited cadmium and aluminium-based SermeTel 1140/962. Hydrogen diffusivities were measured using two-cell permeation and galvanostatic charging methods and values of 8.0 × 10−8 and 1.0 × 10−9 cm2 s−1 were obtained for 300 M and AerMet100, respectively. A two-dimensional diffusion model was used to predict the hydrogen distributions in the SSR specimens at the time of failure. The superior embrittlement resistance of AerMet100 was attributed to reverted austenite forming around martensite laths during te
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Keywords
A. Steel, B. Hydrogen permeation, B. Galvanostatic, C. Hydrogen embrittlement