Effect of wood dust fibre treatments reinforcement on the properties of recycled polypropylene composite (r-WoPPC) filament for Fused Deposition Modelling (FDM)

The efficacy of wood dust fibre treatment on the property of wood dust reinforced recycled polypropylene composite (r-WoPPC) filament was investigated. The wood dust fibre was treated using alkali, silane, and NaOH-silane. The treated wood fibre was incorporated with r-PP using a twin-screw extruder...

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Bibliographic Details
Main Authors: Zainal Azali, Nafis Syahmi, Mustafa, Nuzaimah, Abdul Kudus, Syahibudil Ikhwan, Yusuf, Yusliza, Rushdan, Ahmad Ilyas, Knight, Victor Feizal, Norrrahim, Mohd. Nor Faiz
Format: Article
Language:English
Published: MDPI 2023
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Online Access:http://eprints.utm.my/105524/1/AhmadIlyasRushdan2023_EffectofWoodDustFibreTreatments.pdf
http://eprints.utm.my/105524/
http://dx.doi.org/10.3390/ma16020479
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Summary:The efficacy of wood dust fibre treatment on the property of wood dust reinforced recycled polypropylene composite (r-WoPPC) filament was investigated. The wood dust fibre was treated using alkali, silane, and NaOH-silane. The treated wood fibre was incorporated with r-PP using a twin-screw extruder to produce filament. The silane treatment on wood dust fibre enhances interfacial bonding between wood fibre and recycled PP; hence, a filament has the highest wire pull strength, which is 35.2% higher compared to untreated and alkaline-treated wood dust filament. It is because silanol in silane forms a siloxane bond that acts as a coupling agent that improves interfacial bonding between wood dust fibre and recycled PP. The SEM micrograph of the fracture structure reveals that treated silane has strong interfacial bonding between wood dust fibre and recycled PP, having minimal void, gap, and good fibre adhesion. The water absorption test results indicate that filament with treated wood dust absorbs less water than filament with untreated wood because the treatment minimizes the gap between wood fibres and recycled PP. The FTIR analysis identified the presence of silane on the wood dust surface for silane-treated wood dust. The DSC studies suggest that the temperature range 167–170 °C be used in the extrusion machine to produce r-WoPPC filament. As a result, r-WoPPc filaments containing silane-treated wood dust have better mechanical properties and have a greater potential for usage in FDM applications.