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http://dx.doi.org/10.5574/KSOE.2016.30.6.520

Environment Deterioration Characteristics of Polypropylene / Glass Fiber Composites under Moisture Absorption Environment  

Kim, Yun-Hae (Division of Mechanical Engineering, Colleage of Engineering, Korea Maritime and Ocean University)
Park, Chang-Wook (Division of Mechanical Engineering, Colleage of Engineering, Korea Maritime and Ocean University)
Jung, Gyung-Seok (Division of Mechanical Engineering, Colleage of Engineering, Korea Maritime and Ocean University)
Shin, Seok-Jin (Division of Mechanical Engineering, Colleage of Engineering, Korea Maritime and Ocean University)
Publication Information
Journal of Ocean Engineering and Technology / v.30, no.6, 2016 , pp. 520-525 More about this Journal
Abstract
In this study, a mixture of polypropylene fibers and glass fibers were used to weave polypropylene/glass fiber-reinforced composite panels with characteristics such as highly elongated short fibers, high ductility, anti-fouling, and hydrophobicity as a result of a directional property. Mechanical and environmental tests were carried out with specimens fabricated with this composite panel, and its applicability to shipbuilding and ocean leisure industries was evaluated through a comparison with existing glass fiber-reinforced composite materials. The results of this experiment verified the excellence of the polypropylene/glass-mixed woven fiber-reinforced composite material compared to the existing glass fiber-reinforced composite material. However, the forming process needs to be changed to improve the weak interfacial bonding, and the properties of the composite material itself could be improved through mixed weaving with other fibers after development. Maximizing of the advantages of the polypropylene fibers and overcoming their shortcomings will improve their applicability to the shipbuilding, ocean leisure, and other industries, and increase the value of polypropylene fibers in the composite material market.
Keywords
Fiber reinforced composite; Marine environment; Moisture absorption; Polypropylene fiber; Glass fiber;
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