Abstract
Natural plant fibers, including flax, kenaf, jute, bamboo, ramie and much more are renewable and sustainable resources and are considered good candidates for cost-effective alternatives to glass and carbon fibers. In this research, cross ply biodegradable composites were fabricated by press-forming method. The biodegradable composites consist of Manila hemp textile as a reinforcement and starch-based biodegradable plastics as a matrix was fabricated and investigated about mechanical properties. The tensile strength increased with the fiber content until fiber content of about 50% and leveled off thereafter. This dependence on the fiber content is due to the decrease in fiber strength of loading direction caused by fiber damages introduced during hot-pressing. In order to decrease the damage of fibers aligned in loading direction, Manila hemp textile was produced by using Manila hemp fibers for warp and biodegradable resin thread for weft. As a result, the tensile strength of cross ply composites increased from 153 MPa to 202 MPa.
Highlights
These past few years have witnessed the speedy development of scientific techniques and an addition in the standard of living of human
In order to decrease the damage of fibers aligned in loading direction, Manila hemp textile was produced by using Manila hemp fibers for warp and biodegradable resin thread for weft
The aim of this study is to develop cross ply biodegradable composites to expand the range of applications of the biodegradable composites
Summary
These past few years have witnessed the speedy development of scientific techniques and an addition in the standard of living of human. In order to reduce the environmental load generated from the disposal of used plastic products, significant attention has been placed on biodegradable resin. This resin can be completely resolved into water and carbon. The use of natural plant fibers as a reinforcement in FRP to replace synthetic fibers such as glass and carbon fibers is presently receiving attention because of advantages such as renewable resources, low density and high specific strength. Researches on molding condition, mechanical properties and interfacial bonding have been carried out
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