Effects of alkaline and silane treatments on the water‐resistance properties of wood‐fiber‐reinforced recycled plastic composites

Cui, Yihua; Tao, Jie

doi:10.1002/vnl.20169

Cited by 19 publications

(14 citation statements)

References 35 publications

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“…As shown in Figure 4, the addition of HDPE‐ g ‐MAH obviously lowered the water absorption to below 1.5% when compared with the water uptake at 4.7% in absence of any compatibilizer. At the loading of 25 phr (B‐6), the water absorption was less than 1%, which is nearly negligible for the applications, because the hydrophilic fibers are effectively coated with the hydrophobic matrix and a water‐resistant film is formed around the fibers 9, 23…”

Section: Resultsmentioning

confidence: 99%

“…Chemical coupling by using various coupling agents or polymer compatibilizers is proved the most effective way, the main function of chemical coupling is to react with the hydroxyl groups on the fiber surface, making the surface wettable by the polymer to promote covalent bonding with the matrix 6, 8. The reinforcing effects of physical or chemical methods alone are limited, other reinforcements such as synthetic fiber, metal inserts, and glass fiber5–10 have been added into WPCs, the advantages of one type of fiber could complement deficiencies in the others due to some physical or chemical synergetic reinforcing effects,6, 11, 12 among them, the incorporation of GF is most effective.…”

Section: Introductionmentioning

confidence: 99%

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Glass fiber/wood flour modified high density polyethylene composites

Yang

Guan

et al. 2011

J of Applied Polymer Sci

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Composites of high density polyethylene (HDPE) with the reinforcements of glass fiber (GF) and wood flour (WF) have been studied in this work. High-density polyethylene-grafted maleic hydride (HDPE-g-MAH) was used as a compatibilizer. In particular, the effect of GF, WF, and HDPE-g-MAH on the overall properties of GF/WF/HDPE composites (GWPCs in short form) was systematically studied. The results indicate that HDPE-g-MAH as a compatibilizer can effectively promote the interfacial adhesion between GF/WF and HDPE. By the incorporations of GF/WF, the heat deflection temperature can reach above 120 C, and the water absorption can be below 0.7%, also the tensile strength, flexural strength, and impact strength of GWPCs can surpass 55.2 Mpa, 69.4 Mpa, and 11.1 KJ/m 2 , respectively.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Glass fiber/wood flour modified high density polyethylene composites

Yang

Guan

et al. 2011

J of Applied Polymer Sci

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“…Usually, the natural filler has abundant hydroxyl groups that lead to poor wettability and poor adhesion with hydrophobic thermoplastic. Many filler treatments have been used to improve filler dispersion and adhesion with the thermoplastic matrix, such as alkaline treatment , esterification , use of silane coupling agent , and compatibilizer . Perhaps the most important of these filler treatments is the coupling agent, which can enhance the interfacial compatibility of hydrophobic thermoplastic and highly hydrophilic natural filler.…”

Section: Introductionmentioning

confidence: 99%

Effect of filler loading and coconut oil coupling agent on properties of low‐density polyethylene and palm kernel shell eco‐composites

Husseinsyah

Koay

Hadi

et al. 2014

Vinyl Additive Technology

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Palm kernel shell (PKS), a waste from the oil palm industry, has been utilized as filler in low-density polyethylene (LDPE) eco-composites in the present work. The effect of PKS content and coconut oil coupling agent (COCA) on tensile properties, water absorption, and morphological and thermal properties of LDPE/PKS eco-composites was investigated. The results show the increase of PKS content decreased the tensile strength and elongation at break, but increased the tensile modulus, crystallinity, and water absorption of ecocomposites. The presence of COCA as coupling agent improved the filler-matrix adhesion yield to increase the tensile strength, tensile modulus, crystallinity, and reduced water absorption of eco-composites. The better interfacial adhesion between PKS and LDPE with the addition of COCA was also evidenced by scanning electron microscopy studies. J. VINYL ADDIT. TECHNOL.,

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“…Lei et al17 prepared WF/RHDPE composites by melt compounding in rheometer chamber and compression molding, and then investigated the influence of coupling agent type and content on the compounding rheology, RHDPE crystallization behavior, and properties of composites. Other researchers18–22 also reported the preparation and properties of WF/RHDPE composites. In these studies, WF content was in the range of 30–50%, and composite samples were manufactured by compression molding or injection molding.…”

Section: Introductionmentioning

confidence: 97%

Preparation of highly filled wood flour/recycled high density polyethylene composites byin situreactive extrusion

Li¹,

Guan²,

Wang³

2011

J of Applied Polymer Sci

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Highly filled wood flour/recycled high density polyethylene (WF/RHDPE) composites were directly prepared by in situ reactive extrusion using a twin-screw/single-screw extruder system. The effects of dicumyl peroxide (DCP) content on extrusion pressure, rheological behavior, mechanical properties, fractured surface morphology of the composites, and melting temperature of RHDPE in the composites were investigated. The extrusion pressure and torque of WF/RHDPE composite melt increased with DCP content. Mechanical property tests and scanning electron microscopy analysis results confirmed that the interfacial interaction of the composites was improved by in situ reaction. The composites show lower melting peak temperature (T m ) than RHDPE. The Polym Sci 124: 5247-5253, 2012

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Effects of alkaline and silane treatments on the water‐resistance properties of wood‐fiber‐reinforced recycled plastic composites

Cited by 19 publications

References 35 publications

Glass fiber/wood flour modified high density polyethylene composites

Glass fiber/wood flour modified high density polyethylene composites

Effect of filler loading and coconut oil coupling agent on properties of low‐density polyethylene and palm kernel shell eco‐composites

Preparation of highly filled wood flour/recycled high density polyethylene composites byin situreactive extrusion

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