[PDF][PDF] Oil palm shell nanofiller in seaweed-based composite film: Mechanical, physical, and morphological properties
HPS Abdul Khalil, YY Tye, Z Ismail, JY Leong… - BioResources, 2017 - sith.itb.ac.id
Composite films that utilize seaweed as a matrix and oil palm shell (OPS) nanoparticles as a
reinforcing material were developed. The effects of loading OPS nanoparticle (0%, 1%, 5%,
10%, 20%, and 30%) into seaweed films were determined by analyzing the physical,
mechanical, and morphological properties of the films. The seaweedbased film incorporated
with OPS nanoparticles at a high concentration (20% w/w) achieved the highest tensile
strength (44.8 MPa) and Young's Modulus (3.13 GPa). However, the film's hydrophobicity …
reinforcing material were developed. The effects of loading OPS nanoparticle (0%, 1%, 5%,
10%, 20%, and 30%) into seaweed films were determined by analyzing the physical,
mechanical, and morphological properties of the films. The seaweedbased film incorporated
with OPS nanoparticles at a high concentration (20% w/w) achieved the highest tensile
strength (44.8 MPa) and Young's Modulus (3.13 GPa). However, the film's hydrophobicity …
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