FoilTrack: a package to increase strain-resolution by improved X-radiographic image processing

Research output: Contribution to journalArticlepeer-review

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.
Original languageEnglish
JournalHigh Pressure Research
Early online date23 Aug 2023
DOIs
Publication statusE-pub ahead of print - 23 Aug 2023

Keywords

  • Digital Image Correlation
  • X-radiography
  • Sinuoidal deformation
  • small strain
  • metrology

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