Mechanical Performance Study of Kenaf/HDPE Composite for Structural Applications under Wet or Outdoor Environments

Abstract

ABSTRACT The present work used natural fiber-reinforced polymer composite to explore its feasibility for structural applications in wet or outdoor environments. A novel technique of microwave-assisted compression molding (MACM) is used to manufacture kenaf/high-density polyethylene (HDPE) composites. Mechanical performance of 30 wt.% reinforced kenaf/HDPE composite conditioned in different environments for 6 months was evaluated. The liquids taken for environmental conditioning were sea water, 5% NaOH solution, deionized water, vegetable oil (soybean oil), and diesel. Mechanical performances were investigated and correlated with different attributes, i.e. wettability, liquid uptake, thickness swelling, absorption mechanism, and morphologies. It was observed that the tensile, flexural, and hardness properties were decreased due to degradation in interfacial bonding. Whereas increased impact strength was observed due to the plasticization effect after conditioning. Composites conditioned in vegetable oil retained highest value of physical and mechanical properties. Whereas composites conditioned in 5% NaOH solution followed by other conditioning environments showed maximum degradation in the properties. It can be inferred from the study that kenaf/HDPE composites can be used for medium load structural applications present in viscous and chemically neutral environments. The best-suited example of the present work is container for storage of vegetable oil and for making boundaries outside the property.