Effect of fiber loading on the mechanical and physical properties of “green” bagasse–polyester composite

Publication date: Available online 26 June 2015 Source:Journal of Radiation Research and Applied Sciences Author(s): Hamdy M. Naguib , Usama F. Kandi , Ahmed I. Hashem , Yasser Baghdady The main aim of this work is to fill unsaturated polyester resin with bagasse agricultural waste, as reinforcement, to prepare green wooden–polymer composites. Bagasse fibers were treated with 5% sodium hydroxide and then with dilute sulfuric acid. Bagasse–polyester composites were prepared by addition of 5, 10 and 15% of untreated and alkali treated bagasse fibers to polyester. The crosslinking reaction was performed using methyl ethyl ketone peroxide as a catalyst and cobalt octoate as an accelerator. The prepared composites were then exposed to post-curing at elevated temperature for completely crosslinking. The flexural behavior of the prepared composites was studied. An enhancement in the mechanical properties was achieved after chemical treatment. In addition, water absorption and chemical resistance were conducted showing that the produced bagasse–polyester composite with appreciable mechanical and physical properties is a new partner and cost effective material for many advanced industrial applications in addition to their environmental friendly behavior.
Source: Journal of Radiation Research and Applied Sciences - Category: Physics Source Type: research