Modeling of Hydrogen Diffusion in Slow Strain Rate (SSR) Testing of Notched Samples

Andreas Drexler; Josef Domitner; Christof Sommitsch

doi:10.1007/978-3-030-66948-5_6

Modeling of Hydrogen Diffusion in Slow Strain Rate (SSR) Testing of Notched Samples

Andreas Drexler^*, Josef Domitner, Christof Sommitsch

^*Corresponding author for this work

Institute of Materials Science, Joining and Forming (3030)

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Macroscopic testing of the hydrogen embrittlement (HE) resistivity of ultra and advanced high-strength steels is still a difficult task. Different testing procedures are recommended in literature, such as the slow strain rate (SSR) test, the constant load (CL) test, or the incremental step load (ISL) test. Nevertheless, a direct comparison of the results of the different testing procedures is challenging and the influence of the microstructure is not well understood. Therefore, the present work contributes to a deeper understanding of the role of internal hydrogen diffusion and trapping at microstructural defects during SSR testing of notched samples using physical reasonable diffusion-mechanical finite element (FE) simulations. The modeling approach allows a detailed study of the role of macroscopic strength and multiple trapping sites on the local hydrogen accumulation at the notch.

Original language	English
Title of host publication	Advances in Hydrogen Embrittlement Study
Editors	Vladimir A. Polyanskiy, Alexander K. Belyaev
Place of Publication	Cham
Publisher	Springer
Chapter	8
Pages	87-111
ISBN (Electronic)	978-3-030-66948-5
ISBN (Print)	978-3-030-66947-8
DOIs	https://doi.org/10.1007/978-3-030-66948-5_6
Publication status	Published - 2021

Publication series

Name	Advanced Structured Materials
Volume	143

Keywords

Beneficial trapping
Hydrogen diffusion
Hydrogen embrittlement
Notch effect
Slow strain rate testing

ASJC Scopus subject areas

Materials Science(all)

Fields of Expertise

Advanced Materials Science
Mobility & Production

Access to Document

10.1007/978-3-030-66948-5_6

Cite this

Modeling of Hydrogen Diffusion in Slow Strain Rate (SSR) Testing of Notched Samples. / Drexler, Andreas; Domitner, Josef ; Sommitsch, Christof.
Advances in Hydrogen Embrittlement Study. ed. / Vladimir A. Polyanskiy; Alexander K. Belyaev. Cham: Springer, 2021. p. 87-111 (Advanced Structured Materials; Vol. 143).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

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abstract = "Macroscopic testing of the hydrogen embrittlement (HE) resistivity of ultra and advanced high-strength steels is still a difficult task. Different testing procedures are recommended in literature, such as the slow strain rate (SSR) test, the constant load (CL) test, or the incremental step load (ISL) test. Nevertheless, a direct comparison of the results of the different testing procedures is challenging and the influence of the microstructure is not well understood. Therefore, the present work contributes to a deeper understanding of the role of internal hydrogen diffusion and trapping at microstructural defects during SSR testing of notched samples using physical reasonable diffusion-mechanical finite element (FE) simulations. The modeling approach allows a detailed study of the role of macroscopic strength and multiple trapping sites on the local hydrogen accumulation at the notch.",

keywords = "Hydrogen, Embrittlement, Beneficial trapping, Hydrogen diffusion, Hydrogen embrittlement, Notch effect, Slow strain rate testing",

author = "Andreas Drexler and Josef Domitner and Christof Sommitsch",

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AU - Domitner, Josef

AU - Sommitsch, Christof

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N2 - Macroscopic testing of the hydrogen embrittlement (HE) resistivity of ultra and advanced high-strength steels is still a difficult task. Different testing procedures are recommended in literature, such as the slow strain rate (SSR) test, the constant load (CL) test, or the incremental step load (ISL) test. Nevertheless, a direct comparison of the results of the different testing procedures is challenging and the influence of the microstructure is not well understood. Therefore, the present work contributes to a deeper understanding of the role of internal hydrogen diffusion and trapping at microstructural defects during SSR testing of notched samples using physical reasonable diffusion-mechanical finite element (FE) simulations. The modeling approach allows a detailed study of the role of macroscopic strength and multiple trapping sites on the local hydrogen accumulation at the notch.

AB - Macroscopic testing of the hydrogen embrittlement (HE) resistivity of ultra and advanced high-strength steels is still a difficult task. Different testing procedures are recommended in literature, such as the slow strain rate (SSR) test, the constant load (CL) test, or the incremental step load (ISL) test. Nevertheless, a direct comparison of the results of the different testing procedures is challenging and the influence of the microstructure is not well understood. Therefore, the present work contributes to a deeper understanding of the role of internal hydrogen diffusion and trapping at microstructural defects during SSR testing of notched samples using physical reasonable diffusion-mechanical finite element (FE) simulations. The modeling approach allows a detailed study of the role of macroscopic strength and multiple trapping sites on the local hydrogen accumulation at the notch.

KW - Hydrogen

KW - Embrittlement

KW - Beneficial trapping

KW - Hydrogen diffusion

KW - Hydrogen embrittlement

KW - Notch effect

KW - Slow strain rate testing

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Modeling of Hydrogen Diffusion in Slow Strain Rate (SSR) Testing of Notched Samples

Abstract

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Keywords

ASJC Scopus subject areas

Fields of Expertise

Access to Document

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