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FoamQuant : a Python package for time-resolved 3D image quantification of cellular materials

Schott, Florian LU ; Dollet, Benjamin ; Santucci, Stéphane ; Raufaste, Christophe and Mokso, Rajmund LU (2025) In Journal of Synchrotron Radiation 32(Pt 5). p.1370-1377
Abstract

X-ray tomography is a well established technique for investigating three-dimensional bulk structures across scales, from macroscopic samples down to their microscopic constituents. The addition of a temporal dimension through dynamic, time-resolved acquisition results in four-dimensional datasets whose complexity often exceeds the processing capabilities of existing image analysis tools. To address the urgent need for a dedicated four-dimensional image analysis platform for cellular materials, we present FoamQuant—a free and open-source software package designed for batch processing and quantitative analysis of large time series of evolving cellular or foam-like materials. FoamQuant enables the extraction of key parameters such as... (More)

X-ray tomography is a well established technique for investigating three-dimensional bulk structures across scales, from macroscopic samples down to their microscopic constituents. The addition of a temporal dimension through dynamic, time-resolved acquisition results in four-dimensional datasets whose complexity often exceeds the processing capabilities of existing image analysis tools. To address the urgent need for a dedicated four-dimensional image analysis platform for cellular materials, we present FoamQuant—a free and open-source software package designed for batch processing and quantitative analysis of large time series of evolving cellular or foam-like materials. FoamQuant enables the extraction of key parameters such as liquid fraction (porosity), individual bubble (pore) volume and offers advanced characterization of mechanical properties, including elastic strain and stress fields as well as individual cell rearrangements. Its user-friendly, modular architecture is demonstrated through two case studies: (i) the orientation of plastic events in a flowing liquid foam, and (ii) bubble tracking in a coarsening albumin foam.

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author
; ; ; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
cellular materials, image analysis, tomography
in
Journal of Synchrotron Radiation
volume
32
issue
Pt 5
pages
8 pages
publisher
International Union of Crystallography
external identifiers
  • scopus:105015520475
  • pmid:40844313
ISSN
0909-0495
DOI
10.1107/S1600577525006629
language
English
LU publication?
yes
id
7668a085-a938-43bd-9597-47f14fa22d89
date added to LUP
2025-10-15 15:47:33
date last changed
2025-11-12 17:48:59
@article{7668a085-a938-43bd-9597-47f14fa22d89,
  abstract     = {{<p>X-ray tomography is a well established technique for investigating three-dimensional bulk structures across scales, from macroscopic samples down to their microscopic constituents. The addition of a temporal dimension through dynamic, time-resolved acquisition results in four-dimensional datasets whose complexity often exceeds the processing capabilities of existing image analysis tools. To address the urgent need for a dedicated four-dimensional image analysis platform for cellular materials, we present FoamQuant—a free and open-source software package designed for batch processing and quantitative analysis of large time series of evolving cellular or foam-like materials. FoamQuant enables the extraction of key parameters such as liquid fraction (porosity), individual bubble (pore) volume and offers advanced characterization of mechanical properties, including elastic strain and stress fields as well as individual cell rearrangements. Its user-friendly, modular architecture is demonstrated through two case studies: (i) the orientation of plastic events in a flowing liquid foam, and (ii) bubble tracking in a coarsening albumin foam.</p>}},
  author       = {{Schott, Florian and Dollet, Benjamin and Santucci, Stéphane and Raufaste, Christophe and Mokso, Rajmund}},
  issn         = {{0909-0495}},
  keywords     = {{cellular materials; image analysis; tomography}},
  language     = {{eng}},
  number       = {{Pt 5}},
  pages        = {{1370--1377}},
  publisher    = {{International Union of Crystallography}},
  series       = {{Journal of Synchrotron Radiation}},
  title        = {{FoamQuant : a Python package for time-resolved 3D image quantification of cellular materials}},
  url          = {{http://dx.doi.org/10.1107/S1600577525006629}},
  doi          = {{10.1107/S1600577525006629}},
  volume       = {{32}},
  year         = {{2025}},
}