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Grain boundary carbides as hydrogen diffusion barrier in a Fe-Ni alloy: a thermal desorption and modelling study

Grain boundary carbides as hydrogen diffusion barrier in a Fe-Ni alloy: a thermal desorption and modelling study
Grain boundary carbides as hydrogen diffusion barrier in a Fe-Ni alloy: a thermal desorption and modelling study

A significant decrease in hydrogen absorption in the presence of grain boundary carbides compared to the carbide-free microstructure in the Ni-based HR6W alloy was measured by thermal desorption analysis (TDA). This novel observation is at odds with numerous existing reports – precipitate-rich microstructures generally absorb more hydrogen due to trapping effects. This discrepancy can only be explained by grain boundary diffusion which is known to be fast in Ni-based alloys. It is proposed that grain boundary diffusion is hindered by carbides, resulting in decreased hydrogen absorption. Further experimental evidence corroborates the hypothesis. In addition, a diffusion model was developed to quantify the experimental results, incorporating trapping, grain boundary diffusion and temperature effects. It was successfully applied to the reported TDA data as well as additional diffusion data from the literature. A parametric analysis showed that hydrogen absorption scales strongly with grain size and grain boundary diffusivity while grain boundary segregation energy has a much lower impact. The results of the study point at grain boundary precipitation as a possible means of hydrogen embrittlement mitigation in Ni alloys and austenitic stainless steels.

Carbides, Grain boundary diffusion, Hydrogen diffusion, Thermal desorption analysis (TDA)
0264-1275
985-998
Turk, Andrej
66ab5921-4c1e-45dc-be21-abfb78f6977b
Bombač, David
0a905647-d3ad-4448-a662-7f6d177e7cbd
Jelita Rydel, Jakub
7ec5bf19-b926-4519-af16-17b0816e48d1
Ziętara, Maciej
873b7f77-a5f2-4960-8a69-1c411db8c8dc
Rivera-Díaz-del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Galindo-Nava, Enrique I.
55a2bf00-0903-414e-8ab6-e26d143a9af3
Turk, Andrej
66ab5921-4c1e-45dc-be21-abfb78f6977b
Bombač, David
0a905647-d3ad-4448-a662-7f6d177e7cbd
Jelita Rydel, Jakub
7ec5bf19-b926-4519-af16-17b0816e48d1
Ziętara, Maciej
873b7f77-a5f2-4960-8a69-1c411db8c8dc
Rivera-Díaz-del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Galindo-Nava, Enrique I.
55a2bf00-0903-414e-8ab6-e26d143a9af3

Turk, Andrej, Bombač, David, Jelita Rydel, Jakub, Ziętara, Maciej, Rivera-Díaz-del-Castillo, Pedro E.J. and Galindo-Nava, Enrique I. (2018) Grain boundary carbides as hydrogen diffusion barrier in a Fe-Ni alloy: a thermal desorption and modelling study. Materials and Design, 160, 985-998. (doi:10.1016/j.matdes.2018.10.012).

Record type: Article

Abstract

A significant decrease in hydrogen absorption in the presence of grain boundary carbides compared to the carbide-free microstructure in the Ni-based HR6W alloy was measured by thermal desorption analysis (TDA). This novel observation is at odds with numerous existing reports – precipitate-rich microstructures generally absorb more hydrogen due to trapping effects. This discrepancy can only be explained by grain boundary diffusion which is known to be fast in Ni-based alloys. It is proposed that grain boundary diffusion is hindered by carbides, resulting in decreased hydrogen absorption. Further experimental evidence corroborates the hypothesis. In addition, a diffusion model was developed to quantify the experimental results, incorporating trapping, grain boundary diffusion and temperature effects. It was successfully applied to the reported TDA data as well as additional diffusion data from the literature. A parametric analysis showed that hydrogen absorption scales strongly with grain size and grain boundary diffusivity while grain boundary segregation energy has a much lower impact. The results of the study point at grain boundary precipitation as a possible means of hydrogen embrittlement mitigation in Ni alloys and austenitic stainless steels.

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More information

Published date: 15 December 2018
Additional Information: Publisher Copyright: © 2018
Keywords: Carbides, Grain boundary diffusion, Hydrogen diffusion, Thermal desorption analysis (TDA)

Identifiers

Local EPrints ID: 491986
URI: http://eprints.soton.ac.uk/id/eprint/491986
DOI: doi:10.1016/j.matdes.2018.10.012
ISSN: 0264-1275
PURE UUID: 97e59662-84c1-4af7-8aac-08dc30696375
ORCID for Pedro E.J. Rivera-Díaz-del-Castillo: ORCID iD orcid.org/0000-0002-0419-8347

Catalogue record

Date deposited: 10 Jul 2024 16:41
Last modified: 12 Jul 2024 02:13

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Contributors

Author: Andrej Turk
Author: David Bombač
Author: Jakub Jelita Rydel
Author: Maciej Ziętara
Author: Pedro E.J. Rivera-Díaz-del-Castillo ORCID iD
Author: Enrique I. Galindo-Nava

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