Solace Sam-Brew scite author profile

Flax shive and hemp hurd residues were characterized, and the feasibility of manufacturing three-layered particleboards was evaluated using 2.5% and 5% polymeric diphenyl methane diisocyanate resin loadings. The flax shive and hemp hurd residues had lower bulk densities and higher aspect ratios compared with the wood residues. Their higher aspect ratios offered greater overlap in bonding, which led to consistently higher bending properties that exceeded the American National Standards Institute (ANSI) requirements for low-density (LD2) particleboard and, in some cases, medium-density (M2) particleboard. Because of their particle geometry, the flax shive and hemp hurd particleboards also showed minimal linear expansion with changes in the moisture content at 20 ± 3 °C and between 50% and 90% relative humidity. The high absorption capacity of the flax shive and hemp hurd residues resulted in higher thickness swell and water absorption properties than the wood residues. The results indicated that low-density flax shive and hemp hurd particleboards (500 to 620 kg/m 3 ) can be manufactured using isocyanate resin quantities as low as 2.5% to produce panels that conform to ANSI specifications with a greater mechanical performance than that of wood residue particleboards.

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Investigation of mechanical properties of sandwich panels made of paper honeycomb core and wood composite skins by experimental testing and finite element (FE) modelling methods

Chen

Yan

Sam-Brew

et al. 2014

Eur. J. Wood Prod.

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Properties of Commercial Kraft Paper Honeycomb Furniture Stock Panels Conditioned under 65 and 95 Percent Relative Humidity

Semple¹,

Sam-Brew²,

Deng³

et al. 2015

Forest Products Journal

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Influence of environmental humidity and temperature on the creep behavior of sandwich panel

Chen

Yan

Deng

et al. 2017

International Journal of Mechanical Sciences

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Edge Reinforcement of Honeycomb Sandwich Panels

Sam-Brew¹,

Semple²,

Smith³

2010

Forest Products Journal

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The development of hollow core composite panels for value added applications

Sam-Brew¹

2010

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Solace Sam-Brew

Preliminary Experiments on the Manufacture of Hollow Core Composite Panels

Flax and Hemp fiber-reinforced particleboard

Flax Shive and Hemp Hurd Residues as Alternative Raw Material for Particleboard Production

Investigation of mechanical properties of sandwich panels made of paper honeycomb core and wood composite skins by experimental testing and finite element (FE) modelling methods

Properties of Commercial Kraft Paper Honeycomb Furniture Stock Panels Conditioned under 65 and 95 Percent Relative Humidity

Influence of environmental humidity and temperature on the creep behavior of sandwich panel

Edge Reinforcement of Honeycomb Sandwich Panels

The development of hollow core composite panels for value added applications

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