Karl Englund scite author profile

Fiber length and distribution play important roles in the processing and mechanical performance of fiber-based products such as paper and fiberboard. In the case of wood-plastic composites (WPC), the production of WPC with long fibers has been neglected, because they are difficult to handle with current production equipment. This study provides a better understanding of the effect of fiber length on WPC processing and properties. The objectives of this study were therefore to determine the role of fiber length in the formation process and property development of WPC. Three chemithermomechanical pulps (CTMP) with different lengths, distributions, and length-to-diameter ratios (L/D) were obtained by mechanical refining. Length, shape, and distribution were characterized using a fiber quality analyzer (FQA). The rheometer torque properties of high-density polyethylene (HDPE) filled with the pulps at different loads were studied. Variations in fiber load and length distribution resulted in significant variations in melting properties and torque characteristics. Composites from the three length distributions were successfully processed using extrusion. Physical and mechanical properties of the obtained composites varied with both length distribution and additive type. Mechanical properties increased with increasing fiber length, whereas performance in water immersion tests decreased.

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Synthesis of Polyhydroxyalkanoates in Municipal Wastewater Treatment

Coats¹,

Loge²,

Wolcott³

et al. 2007

Water Environment Research

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Biologically derived polyesters known as polyhydroxyalkanoates (PHAs) represent a potentially ''sustainable'' replacement to fossilfuel-based thermoplastics. However, current commercial practices that produce PHA with pure microbial cultures grown on renewable, but refined, feedstocks (i.e., glucose) under sterile conditions do not represent a sustainable commodity. Here, we report on PHA production with a mixed microbial consortium indigenous to an activated sludge process on carbon present in municipal wastewaters. Reactors operated under anaerobic/aerobic and aerobic-only mode and fed primary solids fermenter liquor maintained a mixed microbial consortium capable of synthesizing PHA at 10 to 25% (w/w), while reducing soluble COD by approximately 62 to 71%. More critically, an aerobic batch reactor seeded from the anaerobic/aerobic reactor and fed fermenter liquor achieved approximately 53% PHA (w/w). Results presented suggest that environmentally benign production of biodegradable polymers is feasible. We further used PHA-rich biomass to produce a natural fiber-reinforced thermoplastic composite that can be used to offset advanced wastewater treatment costs. Water Environ. Res., 79, 2396Res., 79, (2007.

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All-cellulose composites prepared from flax and lyocell fibres compared to epoxy–matrix composites

Gindl‐Altmutter

Keckes

Plackner³

et al. 2012

Composites Science and Technology

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Karl Englund

Effects of processing method and fiber size on the structure and properties of wood–plastic composites

Pelleted biochar: Chemical and physical properties show potential use as a substrate in container nurseries

Effect of fiber length on processing and properties of extruded wood‐fiber/HDPE composites

Synthesis of Polyhydroxyalkanoates in Municipal Wastewater Treatment

All-cellulose composites prepared from flax and lyocell fibres compared to epoxy–matrix composites

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