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Enzyme-Retted Flax Fiber and Recycled Polyethylene Composites
Authors:Jonn A. Foulk  Wayne Y. Chao  Danny E. Akin  Roy B. Dodd  Patricia A. Layton
Affiliation:(1) Cotton Quality Research Station, USDA-ARS, Clemson, SC, USA;(2) Department of Forestry and Natural Resources, Clemson University, Clemson, SC, USA;(3) R. B. Russell Agricultural Research Center, USDA-ARS, Athens, GA, USA;(4) Department of Agricultural and Biological Engineering, Clemson University, Clemson, SC, USA
Abstract:Municipal solid wastes generated each year contain potentially useful and recyclable materials for composites. Simultaneously, interest is high for the use of natural fibers, such as flax (Linum usitatissimum L.), in composites thus providing cost and environmental benefits. To investigate the utility of these materials, composites containing flax fibers with recycled high density polyethylene (HDPE) were created and compared with similar products made with wood pulp, glass, and carbon fibers. Flax was either enzyme- or dew-retted to observe composite property differences between diverse levels of enzyme formulations and retting techniques. Coupling agents would strengthen binding between fibers and HDPE but in this study fibers were not modified in anyway to observe mechanical property differences between natural fiber composites. Composites with flax fibers from various retting methods, i.e., dew- vs. enzyme-retting, behaved differently; dew-retted fiber composites resulted in both lower strength and percent elongation. The lowest level of enzyme-retting and the most economical process produces composites that do not appear to differ from the highest level of enzyme-retting. Flax fibers improved the modulus of elasticity over wood pulp and HDPE alone and were less dense than glass or carbon fiber composites. Likely, differences in surface properties of the various flax fibers, while poorly defined and requiring further research, caused various interactions with the resin that influenced composite properties.
Keywords:Flax fibers  enzymes  solid waste  milk containers  composite
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