The physical perspective on the solid and molten states associated with the mechanical properties of eco‐friendly HDPE/<i><scp>P</scp>inus taeda</i> wood‐plastic composites

Grison, Karine; Pistor, Vinícius; Scienza, Lisete Cristine; Zattera, Ademir J.

doi:10.1002/app.42887

Cited by 10 publications

(12 citation statements)

References 24 publications

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“…The refining process is designed to maximize fiber–fiber interaction, which improves strength by increasing fiber rugosity (referred to as fibrillation) and fiber specific surface . According to Grison et al . surface roughness is important because it enables the melting polymer to use the particle surfaces as anchoring points, fostering adhesion during crystallization.…”

Section: Resultsmentioning

confidence: 99%

Rheological behavior of high‐density polyethylene (HDPE) filled with paper mill sludge

Soucy

Guilhot

Rivard³

et al. 2018

J of Applied Polymer Sci

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A comparative study was conducted of composites made with sludge from three different paper mills. Sludges were obtained from a thermomechanical pulp (TMP), a chemico‐TMP (CTMP), and a Kraft mill with a feedstock of primarily black spruce. The primary sludge (PS) and secondary sludge (SS) were mixed at two different ratios (PS:SS = 7:3 and 9:1) and blended with high‐density polyethylene (HDPE) at 20%, 30%, and 40% proportion. The blends were tested using plate–plate geometry before subjection to frequency sweep by oscillation rheometry. The storage modulus (G′), loss modulus (G″), and complex viscosity (η*) increased with increasing paper sludge content. Decreasing the PS:SS ratio from 9:1 to 7:3 decreased G′, G″, and η*. Differential scanning calorimetry showed that sludge addition increased both the melting and crystallization temperature, for a positive effect on crystallinity. Although the behavior of sludge–high‐density polyethylene blends differed from that of traditional wood plastic composite made with wood flour, they obtained G′, G″, and η* values of the same magnitude. © 2018 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2018, 135, 46484.

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Section: Resultsmentioning

confidence: 99%

Rheological behavior of high‐density polyethylene (HDPE) filled with paper mill sludge

Soucy

Guilhot

Rivard³

et al. 2018

J of Applied Polymer Sci

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“…A utilização de fibras vegetais para a preparação de compósitos poliméricos tem sido bastante explorada em pesquisas científicas e também na área industrial, sobretudo automobilística, devido à possibilidade de gerar materiais com custos reduzidos e propriedades suficientes para garantir sua aplicação em diversas situações [18,19]. Somando-se a isto, no Brasil há uma grande disponibilidade de fibras vegetais que podem ser utilizadas para a preparação de compósitos poliméricos, como é o caso do bagaço de cana [10].…”

Section: Discussionunclassified

Compósitos de PET reciclado com fibra de cana-de-açúcar tratada por explosão a vapor

2017

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A utilização de polímeros termoplásticos reciclados a partir de embalagens para a preparação de compósitos com fibras vegetais é uma alternativa tecnológica de grande potencial que pode conciliar viabilidade econô-mica com benefícios ambientais. No Brasil, muitos estudos têm sido feitos para a utilização de fibras vegetais em compósitos com matriz polimérica devido à grande disponibilidade de resíduos desses materiais. O País também merece destaque pelo alto índice de reciclagem mecânica de polímeros termoplásticos, principalmente do polímero poli(tereftalato de etileno) (PET). O presente trabalho teve como objetivo a preparação de compósitos por processamento termomecânico a partir de fibra de cana-de-açúcar tratada por explosão a vapor com matriz polimérica de PET e a avaliação do comportamento das propriedades do material em comparação aos compósitos com fibras não tratadas. Apesar das mudanças significativas na morfologia das fibras de cana-de-açúcar com o tratamento por explosão a vapor, não houve diferenças significativas nas propriedades dos compósitos PET/fibra tratada com relação aos compósitos PET/fibra in natura devido à não penetração da matriz polimérica no interior da estrutura da fibra modificada com o tratamento. O uso de outros tipos de matrizes poliméricas recicladas e adaptações nas operações de processamento dos materiais são alternativas que podem ainda potencializar o uso de fibra de cana-de-açúcar tratada por explosão a vapor na preparação de compósitos poliméricos e contribuir para a produção de materiais ambientalmente sustentáveis. Palavras-chave:Compósitos poliméricos, fibra de cana-de-açúcar, PET, explosão a vapor. ABSTRACTThe use of recycled thermoplastic polymers from packaging and natural fibers for preparation of polymeric composites is a technological alternative of high potential to conciliate economic viability with environmental benefits. In Brazil, several studies have been performed aiming the use of natural fibers in polymeric composites due to the high availability of the agricultural waste. The high index of mechanical recycling of thermoplastic polymers, mainly of the polymer polyethylene terephthalate (PET), also worth mentioning in the Country. This study aimed the preparation of PET/sugarcane fiber composites by thermomechanical processing after treating of the fibers by steam explosion and the evaluation of the composites properties when compared with composites using fibers without treatment. Although of the significant changes in the fiber morphology with steam explosion treatment, there were not significant difference between properties of the composites with treated fibers and the composites with not treated fibers due to the insufficient penetration of the polymeric matrix into structure of the modified fiber after treatment. The use of others recycled polymeric matrix as well as adjustments in the operations for materials processing are alternatives that can improve the use of sugarcane fiber treated by steam explosion in the preparation of polymeric composites...

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“…In such studies, the fillers were treated by grafted polymers. Other works highlighted a decrease of the crystallinity due to a modification of the kinetics of crystallization [40,41]. In this work, the coupling agent is a silane which induces no modification of the crystalline phase.…”

Section: Physical Structurementioning

confidence: 92%

Physical structure and mechanical properties of polyamide/bamboo composites

Haddou

Dandurand

Dantras

et al. 2017

J Therm Anal Calorim

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The physical perspective on the solid and molten states associated with the mechanical properties of eco‐friendly HDPE/Pinus taeda wood‐plastic composites

Cited by 10 publications

References 24 publications

Rheological behavior of high‐density polyethylene (HDPE) filled with paper mill sludge

Rheological behavior of high‐density polyethylene (HDPE) filled with paper mill sludge

Compósitos de PET reciclado com fibra de cana-de-açúcar tratada por explosão a vapor

Physical structure and mechanical properties of polyamide/bamboo composites

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