Enhancement of Oil Palm Waste Nanoparticles on the Properties and Characterization of Hybrid Plywood Biocomposites

Author:

Nuryawan Arif,Abdullah C.,Hazwan Che,Olaiya N.ORCID,Yahya Esam,Risnasari Iwan,Masruchin Nanang,Baharudin M.,Khalid Hasmawi,Abdul Khalil H.ORCID

Abstract

Using oil palm trunk (OPT) layered with empty fruit bunch (EFB), so-called hybrid plywood enhanced with palm oil ash nanoparticles, with phenol-formaldehyde (PF) resin as a binder, was produced in this study. The phenol-formaldehyde (PF) resins filled with different loading of oil palm ash (OPA) nanoparticles were prepared and used as glue for layers of the oil palm trunk (OPT) veneer and empty fruit bunch fibre mat. The resulting hybrid plywood produced was characterised. The physical, mechanical, thermal, and morphological properties of the hybrid plywood panels were investigated. The results obtained showed that the presence of OPA nanoparticles significantly affected the physical, mechanical, and thermal properties of the plywood panels. Significant improvements in dimension from water absorption and thickness swelling experiments were obtained for the plywood panels with the highest OPA nanoparticles loading in PF resin. The mechanical properties indicated that plywood composites showed improvement in flexural, shear, and impact properties until a certain loading of OPA nanoparticles in PF resin. Fracture surface morphology also showed the effectiveness of OPA nanoparticles in the reduction of layer breakage due to force and stress distribution. The thermal stability performance showed that PF filled OPA nanoparticles contributed to the thermal stability of the plywood panels. Therefore, the results obtained in this study showed that OPA nanoparticles certainly improved the characteristic of the hybrid plywood.

Publisher

MDPI AG

Subject

Polymers and Plastics,General Chemistry

Reference82 articles.

1. Wood-Based Nanotechnologies toward Sustainability

2. Transparent plywood as a load-bearing and luminescent biocomposite

3. Natural fibre composites: Comprehensive Ashby-type materials selection charts

4. Mohamed; M. Mohamad; M.H.M. Amini; M.A. Aziz; Z.I. Rizman. Effect of biocomposite materials to enhance durability of selected wood species (intsia palembanica miq, neobalanocarpus heimii, shorea plagata) in Malaysia;Rosdi;ARPN J. Eng. Appl. Sci.,2015

5. Bektaş. The effects of wood species, load direction, and adhesives on bending properties of laminated veneer lumber;Bal;BioResources,2012

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