Analysis of the morphometric variations in natural fibres by automated laser scanning: Towards an efficient and reliable assessment of the cross-sectional area

Garat, William; Corn, Stéphane; Moigne, Nicolas Le; Beaugrand, Johnny; Bergeret, Anne

doi:10.1016/j.compositesa.2018.02.018

Cited by 37 publications

(33 citation statements)

References 39 publications

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“…The area of the fibre is then calculated from the maximum and minimum diameters by following an elliptical model. As explained by Garrat et al [18], such a model is more provides results that are closer to the real area of the fibre, on the contrary to the circular model that is widely used. This measuring system allows diameters to be determined with an accuracy of 0.01 µm.…”

Section: Single Fibre Tensile Testsmentioning

confidence: 99%

“…This is why, the laser scanning device is used in this work so that to decrease the cross section measurement errors even though small systematic errors can be encountered due to concavity. For technical fibres, Garat et al [18] found that the cross section was under-estimated by 30% for flax and hemp technical fibres. In another study to be published, the authors found similar tendencies for hemp individual fibres.…”

Section: Single Fibre Tensile Testsmentioning

confidence: 99%

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Study of solutions to optimize the extraction of hemp fibers for composite materials

et al. 2019

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Fibres from hemp stems can be extracted through different mechanical processes following dew or water retting etc. Extraction processes generally have a significant impact on mechanical and morphological properties of the fibres. In this study, hemp fibres are extracted following three different ways. In the first route hemp fibres are extracted from FUTURA 75 variety stems by performing scutching, hackling and microwave degumming. A second batch of fibres of the same variety was extracted by scutching and hackling after an initial microwave degumming treatment. In the third route, the same variety of hemp fibres are extracted from dew retted stems grown at Piacenza (Italy). Finally, the mechanical properties of single fibres as well as the fineness of technical fibres of all types of extracted fibres are evaluated and compared and the interest of the microwave degumming for hemp stem is evaluated.

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Section: Single Fibre Tensile Testsmentioning

confidence: 99%

Section: Single Fibre Tensile Testsmentioning

confidence: 99%

Study of solutions to optimize the extraction of hemp fibers for composite materials

et al. 2019

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“…Les caracté risations des variations dimensionnelles et du comportement mé canique des fibres vé gé tales ont é té effectué es pour des faisceaux de fibres extraits de cinq espè ces phylogé né tiquement diffé rentes, et ayant des fonctions dissemblables dans la plante. En raison de leurs diverses origines botaniques, ces lots de faisceaux de fibres pré sentent des caracté ristiques morphomé triques [10] Hampshire, Royaume-Uni) a é té utilisé pour mesurer les dimensions transversales des faisceaux de fibres et ainsi estimer l'aire de section droite qui est gé né ralement é volutive le long des faisceaux de fibres vé gé tales. Cette mé thode expé rimentale, basé e sur le balayage laser automatisé de l'objet, est dé crite en dé tail dans une é tude pré cé dente [10].…”

Section: Sé Lection Des Faisceaux De Fibres Vé Gé Talesunclassified

“…La Figure 3 pré sente, pour les diffé rentes espè ces de fibres vé gé tales, l'é volution du facteur de forme mé dian (α) de leur section transversale, c'est-à -dire la mé diane des rapports du diamè tre maximum sur le diamè tre minimum mesuré s pour chacune des sections du faisceau considé ré , en fonction de l'humidité relative. Le facteur de forme est un indicateur morphomé trique de la non-circularité de la section transversale des fibres vé gé tales [10]. Dans le cas des faisceaux de fibres de palmier et de sisal, l'humidité relative a peu d'influence sur les facteurs de forme qui sont proches de 1, c'est-à -dire qu'ils pré sentent une section de forme quasicirculaire.…”

Section: Variation Du Facteur De Forme De La Section Transversaleunclassified

“…Le but de ce travail est de caracté riser les variations dimensionnelles et le comportement mé canique de faisceaux de fibres vé gé tales extraits de diverses espè ces de plantes dans des conditions hydro/hygrothermiques variables et contrôlé es. Basé e sur une technique de mesure de la section transversale par balayage laser automatisé [10] et sur un test de micro-traction, conduits tous deux dans une chambre climatique ou en cellule d'immersion, les variations des dimensions transversales et l'évolution du comportement mé canique des faisceaux de fibres vé gé tales ont é té é tudié es.…”

Section: Introductionunclassified

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Dimensional Variations and Mechanical Behavior of Various Plant Fibre Species under Controlled Hydro / Hygrothermal Conditions

Garat¹,

Corn²,

Moigne³

et al. 2019

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About the influence of temperature and environmental relative humidity on the longitudinal and transverse mechanical properties of elementary alfa fibers

Khaldi

Bouziane

Vivet

et al. 2020

J of Applied Polymer Sci

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Composites reinforced with plant‐based fibers present a high potential for valorization in new industrial applications due to their good specific mechanical characteristics, renewability, and recyclability. In order to accelerate their wide industry adoption, it is critical to assess their behavior and durability in heat and humid environments. This article aims at investigating the effects of temperature and relative humidity (RH) on the longitudinal and transverse mechanical properties of the lignocellulosic fibers extracted from alfa plant (Stipa tenacissima L). For this purpose, tensile and nanoindentation tests were performed on elementary alfa fibers subjected to a thermal cycle of 200°C. The fibers were held at various periods of 15, 30, 60 and 120 min. The test results showed that the longitudinal and transverse Young's moduli are moderately affected by short thermal cycles having duration of 15–30 min. However, for longer thermal cycle (i.e., 2 hr), a degradation of 21% for the transverse modulus was recorded. This degradation doubled for the longitudinal modulus (43 vs. 21%). A similar trend was observed for the breaking strength. This study also showed that the RH strongly affects the mechanical performances of alfa fibers.

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Analysis of the morphometric variations in natural fibres by automated laser scanning: Towards an efficient and reliable assessment of the cross-sectional area

Cited by 37 publications

References 39 publications

Study of solutions to optimize the extraction of hemp fibers for composite materials

Study of solutions to optimize the extraction of hemp fibers for composite materials

Dimensional Variations and Mechanical Behavior of Various Plant Fibre Species under Controlled Hydro / Hygrothermal Conditions

About the influence of temperature and environmental relative humidity on the longitudinal and transverse mechanical properties of elementary alfa fibers

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