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Abstract
In high-pressure multi-anvil experiments, X-radiography is used to ascertain strain in deforming samples because the required tooling prevents optical or other direct observations of the sample. The processing of these X-radiographic images to determine bulk sample strain is one of the limiting factors to making
measurements at the smaller strains and strain-rates that occur during mantle convection or the passage of seismic waves. Typically, sample deformation in these experiments is tracked by the displacement of high contrast marker foils in X-radiographs. X-radiographs are treated individually or pairwise in a multi-step process that tracks the displacement of marker foils during experiments. Here I develop a new algorithm, FoilTrack, that treats all the X-radiographic observations in a single step process, resulting in improved accuracy and consistency of length changes determined from X-radiographic images, as well as providing more realistic parameter uncertainty. The improvements are demonstrated using data from small-strain sinusoidal deformation experiments.
measurements at the smaller strains and strain-rates that occur during mantle convection or the passage of seismic waves. Typically, sample deformation in these experiments is tracked by the displacement of high contrast marker foils in X-radiographs. X-radiographs are treated individually or pairwise in a multi-step process that tracks the displacement of marker foils during experiments. Here I develop a new algorithm, FoilTrack, that treats all the X-radiographic observations in a single step process, resulting in improved accuracy and consistency of length changes determined from X-radiographic images, as well as providing more realistic parameter uncertainty. The improvements are demonstrated using data from small-strain sinusoidal deformation experiments.
Original language | English |
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Journal | High Pressure Research |
Early online date | 23 Aug 2023 |
DOIs | |
Publication status | E-pub ahead of print - 23 Aug 2023 |
Keywords
- Digital Image Correlation
- X-radiography
- Sinuoidal deformation
- small strain
- metrology
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UoMaH: The University of Manchester at Harwell
Lawrence, J. (PI), Burnett, T. (PI), Baker, M. (Researcher), Eastwood, D. (Researcher), Hunt, S. (Researcher), Yan, K. (Researcher), Khan, A. (Researcher), Ma, L. (Researcher), Mirihanage, W. (Researcher), Mu, T. (Researcher), Parlett, C. (Researcher), Price, C. (Researcher), Freitas, D. (Researcher), Bourne, N. (Researcher), Reinhard, C. (Support team), Lewis-Fell, J. (Technical team), Nonni, S. (Technical team), Rollings, B. (Technical team), Sinclair, L. (Technical team) & Batts, S. (Support team)
1/01/18 → …
Project: Other