Fei Ling Pua scite author profile

A study on mechanical properties of soil buried kenaf fibre reinforced thermoplastic polyurethane (TPU) composites is presented in this paper. Kenaf bast fibre reinforced TPU composites were prepared via melt-mixing method using Haake Polydrive R600 internal mixer. The composites with 30% fibre loading were prepared based on some important parameters; i.e. 190 °C for reaction temperature, 11 min for reaction time and 400 rpm for rotating speed. The composites were subjected to soil burial tests where the purpose of these tests was to study the effect of moisture absorption on the mechanical properties of the composites. Tensile and flexural properties of the composites were determined before and after the soil burial tests for 20, 40, 60 and 80 days. The percentages of both moisture uptake and weight gain after soil burial tests were recorded. Tensile strength of kenaf fibre reinforced TPU composite dropped to ∼16.14 MPa after 80 days of soil burial test. It was also observed that there was no significant change in flexural properties of soil buried kenaf fibre reinforced TPU composite specimens.

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Direct production of biodiesel from high-acid value Jatrophaoil with solid acid catalyst derived from lignin

Pua

Fang

Zakaria

et al. 2011

Biotechnol Biofuels

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BackgroundSolid acid catalyst was prepared from Kraft lignin by chemical activation with phosphoric acid, pyrolysis and sulfuric acid. This catalyst had high acid density as characterized by scanning electron microscope (SEM), energy-dispersive x-ray spectrometry (EDX) and Brunauer, Emmett, and Teller (BET) method analyses. It was further used to catalyze the esterification of oleic acid and one-step conversion of non-pretreated Jatropha oil to biodiesel. The effects of catalyst loading, reaction temperature and oil-to-methanol molar ratio, on the catalytic activity of the esterification were investigated.ResultsThe highest catalytic activity was achieved with a 96.1% esterification rate, and the catalyst can be reused three times with little deactivation under optimized conditions. Biodiesel production from Jatropha oil was studied under such conditions. It was found that 96.3% biodiesel yield from non-pretreated Jatropha oil with high-acid value (12.7 mg KOH/g) could be achieved.ConclusionsThe catalyst can be easily separated for reuse. This single-step process could be a potential route for biodiesel production from high-acid value oil by simplifying the procedure and reducing costs.

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Comparative studies of products obtained from solvolysis liquefaction of oil palm empty fruit bunch fibres using different solvents

Fan

Zakaria

Chia

et al. 2011

Bioresource Technology

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A review of magnetic solid catalyst development for sustainable biodiesel production

Krishnan

Pua

Zhang

2021

Biomass and Bioenergy

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Alkaline-treated cocoa pod husk as adsorbent for removing methylene blue from aqueous solutions

Pua

Sajab

Chia

et al. 2013

Journal of Environmental Chemical Engineering

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Fei Ling Pua

Mechanical properties of soil buried kenaf fibre reinforced thermoplastic polyurethane composites

Direct production of biodiesel from high-acid value Jatrophaoil with solid acid catalyst derived from lignin

Comparative studies of products obtained from solvolysis liquefaction of oil palm empty fruit bunch fibres using different solvents

A review of magnetic solid catalyst development for sustainable biodiesel production

Alkaline-treated cocoa pod husk as adsorbent for removing methylene blue from aqueous solutions

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