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This study aims to assess the morphology and properties of fibers extracted from a wild natural plant largely available in Algeria known as Juncus effusus L. (JE). The morphology and diameter of the fiber bundles extracted from the stem of the JE plant were characterized by optical and scanning electron microscopy. The functional groups of the extracted lignocellulosic JE fibers were studied by FTIR, their thermal degradation behavior was investigated by TGA and their crystallinity was determined using X-ray diffraction technique. In addition, mechanical characterization was carried out using tensile tests on the lignocellulosic fiber in order to evaluate their strength, strain at break and Young's modulus. In view of the dispersion in the obtained experimental results, the latter were analyzed using the Weibull statistical laws with two and three parameters.

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Tensile mechanical properties and surface chemical sensitivity of technical fibres from date palm fruit branches (Phoenix dactylifera L.)

Amroune

Bezazi

Belaadi

et al. 2015

Composites Part A: Applied Science and Manufacturing

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Mechanical characterization and optimization of delamination factor in drilling bidirectional jute fibre-reinforced polymer biocomposites

Belaadi

Boumaaza

Amroune

et al. 2020

Int J Adv Manuf Technol

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Investigation of mechanical, physicochemical, and thermal properties of new fiber fromSilybum marianumbark fiber

Laifa

Rokbi

Amroune

et al. 2022

Journal of Composite Materials

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The present investigation aimed to understand the physicochemical properties of the new cellulosic fiber extracted from the bark of Silybum marianum (SM), in view of using it as a potential reinforcement for polymer composites. The morphological and anatomy, physical, thermal and mechanical properties of fibers were firstly discussed in this paper. The Silybum marianum fibers (SMF) were characterized by scanning electron microscopy, Fourier transform infrared, thermogravimetric analysis (TGA), optical microscope, X-ray diffraction (XRD), and single fiber tensile test. The average Young’s modulus and the breaking stress data presented by the fibers are 15.97 GPa and 201.16 MPa, respectively. XRD reveals the presence of cellulose with a crystallinity index of 45%. Thermal stability (250°C) and maximum degradation temperature (357.72°C) of the SMF are established by the thermogravimetric analysis. An analysis of the mechanical properties was carried out on a population of 35 samples using Weibull statistics with two and three parameters.

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Investigation of the Date Palm Fiber for Green Composites Reinforcement: Thermo-physical and Mechanical Properties of the Fiber

Amroune

Bezazi

Dufresne

et al. 2019

Journal of Natural Fibers

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Effect of eco-friendly chemical sodium bicarbonate treatment on the mechanical properties of flax fibres: Weibull statistics

Belaadi

Amroune

Bourchak

2019

Int J Adv Manuf Technol

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Assessment of induced delamination drilling of natural fiber reinforced composites: a statistical analysis

Benyettou

Amroune

Slamani

et al. 2022

Journal of Materials Research and Technology

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Brittle fracture investigation from disc specimen weakened by U- notch in mixed mode I + II

Moussaoui¹,

Amroune²,

Tahiri³

et al. 2020

10.5267/j.esm

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Salah Amroune

Characterization of a novel natural cellulosic fiber from Juncus effusus L.

Tensile mechanical properties and surface chemical sensitivity of technical fibres from date palm fruit branches (Phoenix dactylifera L.)

Mechanical characterization and optimization of delamination factor in drilling bidirectional jute fibre-reinforced polymer biocomposites

Investigation of mechanical, physicochemical, and thermal properties of new fiber fromSilybum marianumbark fiber

Investigation of the Date Palm Fiber for Green Composites Reinforcement: Thermo-physical and Mechanical Properties of the Fiber

Effect of eco-friendly chemical sodium bicarbonate treatment on the mechanical properties of flax fibres: Weibull statistics

Assessment of induced delamination drilling of natural fiber reinforced composites: a statistical analysis

Brittle fracture investigation from disc specimen weakened by U- notch in mixed mode I + II

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