4.7 Article

NanoSIMS analysis of hydrogen and deuterium in metallic alloys: Artefacts and best practice

期刊

APPLIED SURFACE SCIENCE
卷 557, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.apsusc.2021.149736

关键词

NanoSIMS; Deuterium mapping; NanoSIMS artefacts; Hydrogen embrittlement

资金

  1. BP through the BP International Centre for Advanced Materials (BP-ICAM)
  2. Engineering and Physical Sciences Research Council (EPSRC) through the Materials for Demanding Environments (M4DE) Centre for Doctoral Training [EP/L01680X]
  3. UK Research Partnership Investment Funding (UKRPIF) Manchester RPIF Round 2
  4. Henry Royce Institute for Advanced Materials - EPSRC [EP/R00661X/1, EP/S019367/1, EP/P025021/1, EP/P025498/1]

向作者/读者索取更多资源

Hydrogen embrittlement can cause catastrophic failure of high strength alloys. NanoSIMS is a crucial technique for mapping hydrogen and deuterium in metal samples at microstructurally relevant length scales. An experimental methodology for NanoSIMS analysis of deuterium has been established to uncover and minimize artefacts, ensuring accurate detection of localised hydrogen signals.
Hydrogen embrittlement can cause catastrophic failure of high strength alloys, yet determining localised hydrogen in the microstructure is analytically challenging. NanoSIMS is one of the few techniques that can map hydrogen and deuterium in metal samples at microstructurally relevant length scales. Therefore it is essential to understand the artefacts and determine the optimum methodology for its reliable detection. An experimental methodology/protocol for NanoSIMS analysis of deuterium (as a proxy for hydrogen) has been established uncovering unreported artefacts and a new approach is presented to minimise these artefacts in mapping hydrogen and deuterium in alloys. This method was used to map deuterium distributions in electrochemically charged austenitic stainless steel and precipitation hardened nickel-based alloys. Residual deuterium contamination was detected in the analysis chamber as a result of deuterium outgassing from the samples, and the impact of this deuterium contamination was assessed by a series of NanoSIMS experiments. A new analysis protocol was developed that involves mapping deuterium in the passive oxide layer thus mitigating beam damage effects that may prevent the detection of localised deuterium signals when the surface is highly deuterated.

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