Multiscale structural analysis of plant fibre-reinforced thermoplastic biocomposites: Towards realistic 2D and 3D descriptors for advanced modelling

[Display omitted] •2D scanner is an accurate, user-friendly tool for rapidly assessing fibre size and shape distribution.•Initial fibre size distribution can have a significant impact on composite microstructure.•Medium-sized particles provide higher aspect ratio and are more oriented towards the in...

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Vydáno v:Composites. Part A, Applied science and manufacturing Ročník 192; s. 108769
Hlavní autoři: Nour El Dein, Ali, Le Moigne, Nicolas, Pucci, Monica Francesca, Regazzi, Arnaud, Barbulée, Antoine, Gamond, Olivier, Caro, Anne-Sophie
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.05.2025
Elsevier
Témata:
Biocomposites
Chemical Sciences
computed tomography
electron microscopy
extrusion
flax
Material chemistry
Microstructure
Plant fibres
polypropylenes
scanners
thermoplastics
X-ray tomography
Plant fibres
X-ray tomography
Microstructure
Biocomposites
ISSN:1359-835X
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Abstract [Display omitted] •2D scanner is an accurate, user-friendly tool for rapidly assessing fibre size and shape distribution.•Initial fibre size distribution can have a significant impact on composite microstructure.•Medium-sized particles provide higher aspect ratio and are more oriented towards the injection flow.•Fine particles provide better fibre dispersion.•Fibre size distribution has no significant impact on composite porosity. This study presents an in-depth microstructural analysis of injection-moulded polypropylene composites reinforced with flax shives (FS) of different sizes and compounded by twin-screw extrusion. A multi-scale approach, using laser diffraction, 2D scanning, scanning electron microscopy (SEM) and X-ray tomography, is developed to investigate the influence of initial FS size distribution on composite microstructure, including FS size and shape distribution, orientation, and dispersion. The 2D scanner proves to be the most practical and user-friendly tool for measuring FS size and shape distribution. Fibre size reduction during extrusion was successfully modelled, particularly for aspect ratio estimation, with medium-sized particles yielding the highest aspect ratios in injection moulded specimens. SEM observations reveals that fine particles give the best dispersion. FS orientation analysis using X-ray tomography shows that medium-sized particles align more along the injection flow compared to coarser particles. Such 2D and 3D microstructural analyses are required for advanced modelling of biocomposite properties.
AbstractList This study presents an in-depth microstructural analysis of injection-moulded polypropylene composites reinforced with flax shives (FS) of different sizes and compounded by twin-screw extrusion. A multi-scale approach, using laser diffraction, 2D scanning, scanning electron microscopy (SEM) and X-ray tomography, is developed to investigate the influence of initial FS size distribution on composite microstructure, including FS size and shape distribution, orientation, and dispersion. The 2D scanner proves to be the most practical and user-friendly tool for measuring FS size and shape distribution. Fibre size reduction during extrusion was successfully modelled, particularly for aspect ratio estimation, with medium-sized particles yielding the highest aspect ratios in injection moulded specimens. SEM observations reveals that fine particles give the best dispersion. FS orientation analysis using X-ray tomography shows that medium-sized particles align more along the injection flow compared to coarser particles. Such 2D and 3D microstructural analyses are required for advanced modelling of biocomposite properties.
[Display omitted] •2D scanner is an accurate, user-friendly tool for rapidly assessing fibre size and shape distribution.•Initial fibre size distribution can have a significant impact on composite microstructure.•Medium-sized particles provide higher aspect ratio and are more oriented towards the injection flow.•Fine particles provide better fibre dispersion.•Fibre size distribution has no significant impact on composite porosity. This study presents an in-depth microstructural analysis of injection-moulded polypropylene composites reinforced with flax shives (FS) of different sizes and compounded by twin-screw extrusion. A multi-scale approach, using laser diffraction, 2D scanning, scanning electron microscopy (SEM) and X-ray tomography, is developed to investigate the influence of initial FS size distribution on composite microstructure, including FS size and shape distribution, orientation, and dispersion. The 2D scanner proves to be the most practical and user-friendly tool for measuring FS size and shape distribution. Fibre size reduction during extrusion was successfully modelled, particularly for aspect ratio estimation, with medium-sized particles yielding the highest aspect ratios in injection moulded specimens. SEM observations reveals that fine particles give the best dispersion. FS orientation analysis using X-ray tomography shows that medium-sized particles align more along the injection flow compared to coarser particles. Such 2D and 3D microstructural analyses are required for advanced modelling of biocomposite properties.
ArticleNumber 108769
Author Le Moigne, Nicolas
Nour El Dein, Ali
Caro, Anne-Sophie
Barbulée, Antoine
Pucci, Monica Francesca
Regazzi, Arnaud
Gamond, Olivier
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  fullname: Regazzi, Arnaud
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  givenname: Anne-Sophie
  surname: Caro
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  email: anne-sophie.caro@mines-ales.fr
  organization: LMGC, IMT Mines Ales, Univ Montpellier, CNRS, Alès, France
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Keywords Plant fibres
X-ray tomography
Microstructure
Biocomposites
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Snippet [Display omitted] •2D scanner is an accurate, user-friendly tool for rapidly assessing fibre size and shape distribution.•Initial fibre size distribution can...
This study presents an in-depth microstructural analysis of injection-moulded polypropylene composites reinforced with flax shives (FS) of different sizes and...
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StartPage 108769
SubjectTerms Biocomposites
Chemical Sciences
computed tomography
electron microscopy
extrusion
flax
Material chemistry
Microstructure
Plant fibres
polypropylenes
scanners
thermoplastics
X-ray tomography
Title Multiscale structural analysis of plant fibre-reinforced thermoplastic biocomposites: Towards realistic 2D and 3D descriptors for advanced modelling
URI https://dx.doi.org/10.1016/j.compositesa.2025.108769
https://www.proquest.com/docview/3242083611
https://imt-mines-ales.hal.science/hal-04944887
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