Using internal standards in time-resolved X-ray micro-computed tomography to quantify grain-scale developments in solid-state mineral reactions

Using internal standards in time-resolved X-ray micro-computed tomography to quantify grain-scale developments in solid-state mineral reactions

X-ray computed tomography has established itself as a crucial tool in the analysis of rock materials, providing the ability to visualise intricate 3D microstructures and capture quantitative information about internal phenomena such as structural damage, mineral reactions, and fluid-rock interaction...

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Veröffentlicht in:Solid earth (Göttingen) 2024-04, Vol.15 (4), p.493-512
Hauptverfasser: Rizzo, Roberto Emanuele, Freitas, Damien, Gilgannon, James, Seth, Sohan, Butler, Ian B, McGill, Gina Elizabeth, Fusseis, Florian
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Algorithms
Computed tomography
CT imaging
Data mining
Datasets
Deep learning
Dehydration
Earth science
Evolution
Experiments
Graphics processing units
Growth rate
Gypsum
Image processing
Image segmentation
Labeling
Learning algorithms
Learning strategies
Machine learning
Mass balance
Minerals
Neural networks
Physical properties
Pore size
Reproducibility
Rock
Rock properties
Rocks
Run time (computers)
Semantics
Time series
Tomography
Workflow
X rays
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Beschreibung
Zusammenfassung:X-ray computed tomography has established itself as a crucial tool in the analysis of rock materials, providing the ability to visualise intricate 3D microstructures and capture quantitative information about internal phenomena such as structural damage, mineral reactions, and fluid-rock interactions. The efficacy of this tool, however, depends significantly on the precision of image segmentation, a process that has seen varied results across different methodologies, ranging from simple histogram thresholding to more complex machine learning and deep-learning strategies. The irregularity in these segmentation outcomes raises concerns about the reproducibility of the results, a challenge that we aim to address in this work.
ISSN:1869-9529
1869-9510
1869-9529
DOI:10.5194/se-15-493-2024