Investigation of Biodegradability of Coconut Fiber Reinforced with Polymer for Potential Suture Application
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University of Ghana
Abstract
This study investigates the biodegradability of coconut fiber coated with Polylactic acid (PLA) and
Polyglycolic acid (PGA) for potential suture applications. This research aims to address the
restraints of coconut fibers, which have exhibited poor degradability properties. The mechanical
properties and biodegradability rate of the coconut fibers coated with PLA, PGA, and PLA/PGA
blends were determined by conducting tensile testing. It is observed that after the eight weeks of
biodegradability of the uncoated coconut fiber and coated coconut fibers, Coconut fiber coated
with PLA (CPLA) has the highest tensile properties, recording yield tensile strength of 38.9 MPa,
ultimate tensile strength of 350.2 MPa, Young’s modulus of 6.0 GPa and elongation of 11.6%. The
outcome signifies that CPLA displays the highest tensile strength and elongation, and its
biodegradation property is controlled. The results of this work add to the increasing amount of
research in biomedical engineering intended to create eco-friendly and efficient medical devices.
Description
MPhil. Biomedical Engineering
