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Hydrogen-trapping mechanisms in nanostructured steels

Hydrogen-trapping mechanisms in nanostructured steels
Hydrogen-trapping mechanisms in nanostructured steels

Nanoprecipitation-hardened martensitic bearing steels (100Cr6) and carbide-free nanobainitic steels (superbainite) are examined. The nature of the hydrogen traps present in both is determined via the melt extraction and thermal desorption analysis techniques. It is demonstrated that 100Cr6 can admit large amounts of hydrogen, which is loosely bound to dislocations around room temperature; however, with the precipitation of fine coherent vanadium carbide traps, hydrogen can be immobilized. In the case of carbide-free nanostructured bainite, retained austenite/bainite interfaces act as hydrogen traps, while concomitantly retained austenite limits hydrogen absorption. In nanostructured steels where active hydrogen traps are present, it is shown that the total hydrogen absorbed is proportional to the trapped hydrogen, indicating that melt extraction may be employed to quantify trapping capacity.

1073-5623
4542-4550
Szost, B. A.
d6faf422-7d64-4772-84c5-848bb113837a
Vegter, R. H.
e4bb4b26-c085-4ca9-a4f0-9f21faad750b
Rivera-Díaz-Del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Szost, B. A.
d6faf422-7d64-4772-84c5-848bb113837a
Vegter, R. H.
e4bb4b26-c085-4ca9-a4f0-9f21faad750b
Rivera-Díaz-Del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2

Szost, B. A., Vegter, R. H. and Rivera-Díaz-Del-Castillo, Pedro E.J. (2013) Hydrogen-trapping mechanisms in nanostructured steels. Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 44 (10), 4542-4550. (doi:10.1007/s11661-013-1795-7).

Record type: Article

Abstract

Nanoprecipitation-hardened martensitic bearing steels (100Cr6) and carbide-free nanobainitic steels (superbainite) are examined. The nature of the hydrogen traps present in both is determined via the melt extraction and thermal desorption analysis techniques. It is demonstrated that 100Cr6 can admit large amounts of hydrogen, which is loosely bound to dislocations around room temperature; however, with the precipitation of fine coherent vanadium carbide traps, hydrogen can be immobilized. In the case of carbide-free nanostructured bainite, retained austenite/bainite interfaces act as hydrogen traps, while concomitantly retained austenite limits hydrogen absorption. In nanostructured steels where active hydrogen traps are present, it is shown that the total hydrogen absorbed is proportional to the trapped hydrogen, indicating that melt extraction may be employed to quantify trapping capacity.

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Published date: 23 May 2013

Identifiers

Local EPrints ID: 492547
URI: http://eprints.soton.ac.uk/id/eprint/492547
DOI: doi:10.1007/s11661-013-1795-7
ISSN: 1073-5623
PURE UUID: 7a93bfbf-3452-46f8-a743-e7b593a395ea
ORCID for Pedro E.J. Rivera-Díaz-Del-Castillo: ORCID iD orcid.org/0000-0002-0419-8347

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Date deposited: 01 Aug 2024 16:40
Last modified: 02 Aug 2024 02:02

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Contributors

Author: B. A. Szost
Author: R. H. Vegter
Author: Pedro E.J. Rivera-Díaz-Del-Castillo ORCID iD

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