Influence of Alkali Treatment and Dune Sand Content on the Properties of Date Palm Fiber Reinforced Unsaturated Polyester Hybrid Composites

Meftah, Yazid; Tayefi, Masoud; Fellouh, Fatma; Chouieur, Houria; Maou, Samira; Meghezzi, Ahmed

doi:10.18280/rcma.303-406

Cited by 10 publications

(11 citation statements)

References 32 publications

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“…Sample B6 containing 6% NaOH treated DPLF fiber showed high tensile strength and elongation at break of 22 MPa and 2.2%, respectively. These results are in accordance with those of Meftah et al [7], regarding tensile strength and flexural strength. Our results confirm also that the tensile strength of our composites has improved by the alkaline treatment of date palm fibers, and this is in accordance with the findings of Rahman et al [18]and Haameem et al [19].…”

Section: B)supporting

confidence: 93%

“…In the same logic of reflection, Ahmad et al [4][5][6] carried out studies on composites based on epoxy resins and polyesters, looking for the influence of silica nanoparticles (sand) on the mechanical and thermal properties of the composite system. Also, Meftah et al [7] explored the influence of alkaline treatment, and dune sand on the properties of DPLF date palm fiber reinforced with unsaturated polyester by forming hybrid composite systems. On the other hand, one can find in the literature the work effectuated by Alshammari et al [8] based on the manufacture of epoxy resin composites have been carried out by among others mechanical analysis, morphological and physical properties, and water absorption, the fiber is varied like the date palm, palm tree trunk, fruit bunch stalk and leaf stalk.…”

Section: Introductionmentioning

confidence: 99%

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Mechanical, Morphological, Thermal and Dynamic Study of Composites of Unsaturated Polyesters-Date Palm Leaf Fiber DPLF

Berkouk¹,

Meghezzi²,

Chelali³

et al. 2021

RCMA

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In order to improve the properties of unsaturated polyesters, this study discusses the possibilities of developing a natural waste, date palm leaf fiber DPLF, produced in the northern Algerian Sahara, associated with the polymer matrix of a thermosetting polyester resin UP. For this purpose, composite plates containing virgin fiber at rates of 6 and 10% were treated with an alkaline solution of 6% NaOH on the one hand, and a silane compound on the other. In this research, a mechanical study of strength and elongation at break was carried out. In addition, morphological behavior was followed by SEM scanning electron microscopy. ATG thermogravimetric analysis and energy flow were monitored by DSC differential scanning calorimetry. Also, a study of the water absorption capacity has been conducted. In addition, a dynamic mechanical analysis DMA was carried out. The findings of this study show that there is a favorable mechanical behavior for the composites containing the 6% and 10% DPLF fiber, with alkaline NaOH and Silane treatment. They also show that the chemical treatment with alkaline solution and silane gives composites certain thermal stability compared to those with untreated fiber. Findings also explore that the absorption of water by the various composites shows that the chemical treatment promotes some intermolecular associations with water. Findings also show that the storage modulus (E') increases when the composite contains 10% DPLF, treated and untreated, and the maximum value of the tangent moves towards the high temperature for the treated and untreated fiber composite.

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Section: B)supporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Mechanical, Morphological, Thermal and Dynamic Study of Composites of Unsaturated Polyesters-Date Palm Leaf Fiber DPLF

Berkouk¹,

Meghezzi²,

Chelali³

et al. 2021

RCMA

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“…From the Figure 1, it can be noticed that after adding 10 wt% DPLF in C2, an increase in tensile strength is noticed (3.94% increase), the increase after adding 10% DPLF is in agreement with Meftah et al [7], a 58% improvement has been noticed also in elongation at break of C2.…”

Section: Figure 1 Composites Tensile Strength and Elongation At Breaksupporting

confidence: 86%

“…The thermogravimetric analysis is essential and will show the composites thermal properties over a temperature range indicating how stable the material is. Plenty of scientific articles found in the literature dealt with UPR thermal properties using TGA and showed that UPR thermal degradation is a one step process occurring between 350-420℃ [7], a 2-step degradation process has been reported in some other studies, where the first degradation has been attributed to water molecules evaporation and therefore, it appeared at around 80-120℃. Table 5 summarizes the thermal properties of the analyzed composites.…”

Section: Morphological Propertiesmentioning

confidence: 98%

“…It was reported in this study that change in the composite properties was directly related to fiber orientation and length and mainly dependent on the banana fiber than the coir fiber. Alkali treated date palm leaf fiber (DPLF) and dune sand hybrid unsaturated polyester composites have been studied before by Meftah et al [7] thermogravimetric analysis indicated that 6% alkali treated DPLF gives improved thermal stability, while SEM showed better interfacial interaction. Moreover, the water uptake tests indicated that the surface modified DPLF increases hydrophobicity over non treated DPLF.…”

Section: Introductionmentioning

confidence: 99%

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Mechanical, Curing Parameters and Water Absorption of Hybrid Date Palm Leaf-Orange Peel Fibers Reinforced Unsaturated Polyester Composites

Chelali¹,

Meghezzi²,

Berkouk³

et al. 2021

RCMA

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In this study, polymer-hybrid natural fibers composites were prepared using unsaturated polyester resin (UPR) as the matrix and a filler using date palm leaf fiber (DPLF) and orange peel fiber (OPF). The effect of DPLF and OPF on mechanical behavior (tensile strength and elongation at break), moisture absorption, UPR gel time (tgel) and peak exothermic temperature (Tpeak) were determined. The composites of UPR reinforced with DPLF and OPF were processed by hand lay-up technique. The UPR weight fraction was maintained at 90%, and DPLF/OPF proportions varied so that the percentage of natural fiber was 10 wt%. Seven (07) composites were prepared (C1, C2, C3, C4, C5, C6 and C7) with different DPLF:OPF ratios (0:0, 1:0, 0.75:0.25, 0.5:0.5, 0.33:0.67, 0.25:0.75, 0:1) respectively in order to screen the possible interactions. DPLF were surface modified using 6% Alkali treatment, OPF were used without surface modification. Unlike DPLF, OPF showed considerable increase of UPR tgel and Tpeak which act as natural inhibitor. Tensile strength and fracture strength were also impacted negatively and positively depending on the different fiber proportions. Absorption tests showed a decrease in the composites hydrophobicity which increases significantly with higher DPLF proportions.

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The effects of surface modified date‐palm fiber fillers upon the thermo‐physical performances of high density polyethylene‐polyvinyl chloride blend with maleic anhydride as a grafting agent

Maou

Meftah

Grohens

et al. 2023

J of Applied Polymer Sci

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To demonstrate the upcycling of thermoplastic waste with good thermo‐physical properties, high density polyethylene (HDPE; 80 phr) and polyvinyl chloride (PVC; 20 phr) are mixed as the matrix using maleic anhydride (MAH) reinforced with unmodified and modified date palm fibers (DPFs; 30 phr). The effects of in situ grafting of MAH onto the DPFs‐HDPE‐PVC composites upon the resultant thermo‐physical characteristics are investigated and analyzed via Fourier transform infrared spectroscopy and scanning electron microscopy. Thus, the effective compatibilizing of both the HDPE‐PVC component and the grafted HDPE‐PVC blend with the modified DPFs are confirmed. In addition, the results of dynamical mechanical analysis and differential scanning calorimetry indicate that the glass transition temperature (Tg) of the composite is enhanced by the incorporation of modified DPFs. The thermal, mechanical, and water uptake properties of the composites are also improved. Rheological analysis at low frequency reveals that the introduction of hydrolyzed DPFs results in a higher complex viscosity (1.94 × 106 Pa s) and storage modulus (119,844 MPa) for the obtained composite (designated G‐Hydro). Overall, the G‐Hydro composite exhibits the best performance, making it ideal for a variety of construction and building purposes.

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Influence of Alkali Treatment and Dune Sand Content on the Properties of Date Palm Fiber Reinforced Unsaturated Polyester Hybrid Composites

Cited by 10 publications

References 32 publications

Mechanical, Morphological, Thermal and Dynamic Study of Composites of Unsaturated Polyesters-Date Palm Leaf Fiber DPLF

Mechanical, Morphological, Thermal and Dynamic Study of Composites of Unsaturated Polyesters-Date Palm Leaf Fiber DPLF

Mechanical, Curing Parameters and Water Absorption of Hybrid Date Palm Leaf-Orange Peel Fibers Reinforced Unsaturated Polyester Composites

The effects of surface modified date‐palm fiber fillers upon the thermo‐physical performances of high density polyethylene‐polyvinyl chloride blend with maleic anhydride as a grafting agent

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