Stone-Ground Wood Pulp-Reinforced Polypropylene Composites: Water Uptake and Thermal Properties

López, Joan Pere; Gironès, Jordi; Méndez, José Alberto; Mansouri, Nour-Eddine El; Llop, Miquel F.; Mutjé, Pere; Vilaseca, Fabiola

doi:10.15376/biores.7.4.5478-5487

Cited by 22 publications

(30 citation statements)

References 13 publications

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“…Other studies have shown this trend. 18,19,26,27,[29][30][31] Tensile strength is a measure of the stress load a material can support before generating voids that lead to crazing of the material and ultimate failure. The u increase is attributed to better transfer of stress between the hydrophobic wood fiber and the hydrophilic PP matrix due to the chemical coupling.…”

Section: Tisserat Et Al 1283mentioning

confidence: 99%

Effect of particle size, coupling agent and DDGS additions on Paulownia wood polypropylene composites

Tisserat

Reifschneider

Grewell

et al. 2014

Journal of Reinforced Plastics and Composites

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Studies aimed at improving the tensile, flexural, impact, thermal, and physical characteristics of wood-plastic composites composed of Paulownia wood flour derived from 36-month-old trees blended with polypropylene were conducted. Composites of 25% and 40% w/w of Paulownia wood were produced by twin-screw compounding and injection molding. Composites containing 0-10% by weight of maleated polypropylene were evaluated and an optimum maleated polypropylene concentration determined, i.e., 5%. The particle size distribution of Paulownia wood filler is shown to have an effect on the tensile and flexural properties of the composites. Novel combination composites of dried distiller's grain with solubles mixed with Paulownia wood (up to 40% w/w) were produced and their properties evaluated. Depending on the composite tested, soaking composites for 872 h alters mechanical properties and causes weight gain. RightsWorks produced by employees of the U.S. Government as part of their official duties are not copyrighted within the U.S. The content of this document is not copyrighted. Abstract Studies aimed at improving the tensile, flexural, impact, thermal, and physical characteristics of wood-plastic composites composed of Paulownia wood flour derived from 36-month-old trees blended with polypropylene were conducted. Composites of 25% and 40% w/w of Paulownia wood were produced by twin-screw compounding and injection molding. Composites containing 0-10% by weight of maleated polypropylene were evaluated and an optimum maleated polypropylene concentration determined, i.e., 5%. The particle size distribution of Paulownia wood filler is shown to have an effect on the tensile and flexural properties of the composites. Novel combination composites of dried distiller's grain with solubles mixed with Paulownia wood (up to 40% w/w) were produced and their properties evaluated. Depending on the composite tested, soaking composites for 872 h alters mechanical properties and causes weight gain.

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Section: Tisserat Et Al 1283mentioning

confidence: 99%

Effect of particle size, coupling agent and DDGS additions on Paulownia wood polypropylene composites

Tisserat

Reifschneider

Grewell

et al. 2014

Journal of Reinforced Plastics and Composites

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“…One of the limitations related with the use of natural fibers is the low range of temperature allowed to process the composite to avoid fiber degradation (López et al 2012a). To avoid this problem, it is important to determine the melting and degradation temperatures of the composite material.…”

Section: Introductionmentioning

confidence: 99%

Orange Wood Fiber Reinforced Polypropylene Composites: Thermal Properties

et al. 2015

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A major drawback of natural-based composites is the incorporation of reinforcements that are less thermally stable than the matrix; therefore, the thermal properties of the resultant composite material needs to be studied. In this work, orange wood fibers were used to reinforce polypropylene. The effects on the thermal properties of the polymeric matrix were analyzed. To this end, differential scanning calorimetry (DSC), thermogravimetry (TGA), thermomechanical analysis (TMA), and dynamic-mechanical analysis (DMA) were performed. It was found that the degradation of the material took place in two distinct phases: the reinforcement, close to 250 °C, and the matrix, above 340 °C. DSC results showed that fiber reinforcement did not influence the transition temperatures of the materials, although it did affect the polymer crystallinity value, increasing by 7% when the composite is reinforced with 50% of the lignocellulosic reinforcement. The coefficient of expansion obtained by TMA indicated that thermal expansion decreased as the amount of reinforcement increased. DMA assays showed that the reinforcement did not modify the glass transition (20 to 25 °C) temperature and confirmed that the addition of reinforcement increased the crystallinity of the product.

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“…In recent years, wood fiber and natural fibers have gained a significant interest as a reinforcing material for commercial thermoplastics [1][2][3][4][5][6]. Some advantages of natural fibers as opposed to other reinforcing materials are their high availability, their biodegradability, and their relative low cost and density.…”

Section: Introductionmentioning

confidence: 99%

Macro and micromechanics analysis of short fiber composites stiffness: The case of old newspaper fibers–polypropylene composites

Serrano

Espinach²,

Tresserras³

et al. 2014

Materials & Design

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Stone-Ground Wood Pulp-Reinforced Polypropylene Composites: Water Uptake and Thermal Properties

Cited by 22 publications

References 13 publications

Effect of particle size, coupling agent and DDGS additions on Paulownia wood polypropylene composites

Effect of particle size, coupling agent and DDGS additions on Paulownia wood polypropylene composites

Orange Wood Fiber Reinforced Polypropylene Composites: Thermal Properties

Macro and micromechanics analysis of short fiber composites stiffness: The case of old newspaper fibers–polypropylene composites

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