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Current Organic Synthesis


ISSN (Print): 1570-1794
ISSN (Online): 1875-6271

Review Article

Nanoindentation and the Low Velocity Impact Response of Biofibre, Biopolymer and its Biocomposite Derived from Sugar Palm Tree

Author(s): J. Sahari*, S. M. Sapuan, E. S. Zainudin, M. R. Ishak, M. A. Maleque, M. Y.M. Zuhri and R. Akhtar

Volume 14, Issue 2, 2017

Page: [227 - 232] Pages: 6

DOI: 10.2174/1570179413666160831122841

Price: $65


Biofibres have gained a considerable attention due to benefits such as environmentally friendly, renewability, biodegradability, low weight and cost. Although many researches have been done on sugar palm fibres (SPF), there are few studies on characterizing their micromechanical properties by using nanoindentation. The hardness and elastic modulus of isolated SPF is 11.3±0.545 MPa and 149±4.96 MPa respectively. The hardness properties were found to be comparable with the other established fibres i.e. bamboo (12.9±0.378 MPa), jute (11.2±0.47 MPa) and hemp (7.2±0.303 MPa). Then, biopolymer derived from sugar palm starch (SPS) and sugar palm fibre reinforced sugar palm starch (SPF/SPS) biocomposite were successfully developed by using hot press with the presence of glycerol as plasticizer. These environmentally friendly materials were tested for their low velocity impact response. The result shows that SPF/SPS exhibited the best impact properties compared to SPS. The impact load of composites increases with increasing impact energy for both SPS and SPF/SPS specimens.

Keywords: Biofibre, nanoindentation, biopolymer, biocomposites, low velocity impact, starch.

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