Abstract
This comparative study focused on understanding the effect of coupling agent and particle size on weath-ering behaviour of wood polypropylene composite. Two coupling agents, namely maleic anhydride grafted polypropylene and m-TMI (m-Isopropenyl-α,α− dimethylbenzyl isocyanate) grafted polypropylene were used in preparation of the composites. The composites were exposed to outdoor conditions for one year and changes in surface colour and mechanical properties were measured after 2, 4, 8 and 12 months of natural weathering. During the initial four months of weathering considerable colour change was observed with increase in light-ness. Mechanical properties were unaffected largely for the initial four months and thereafter started declining. Overall, tensile strength decreased by about 15 % and flexural strength decreased by about 8 % after one year of weathering. The flexural modulus also decreased by about 10 %. Wood particle size was found to affect the aesthetic and strength of the composites after natural weathering. Coupling agents had a positive impact on mechanical properties however their influence on weathering degradation was not noticeable
Highlights
Application of lignocellulosic fibres as a reinforcement in thermoplastics has gained significant interest, and extensive research and development is taking place through-out the world
We report the natural weathering of wood-polypropylene composites having 40 % wood fibres and its effect on colour and mechanical properties
Wood and virgin polypropylene becomes dark on weathering which is in contrast to the increased lightness of wood polymer composites (WPC)
Summary
Application of lignocellulosic fibres as a reinforcement in thermoplastics has gained significant interest, and extensive research and development is taking place through-out the world. The wood component contributes by increasing stiffness and strength of the material while the thermoplastic component contributes towards moisture resistance, dimensional stability, decay resistance and thermoforming (Wolcott and Englund 1999). These composites are finding their suitability for variety of applications ranging from household items, construction industry, outdoor applications, automotive parts, etc. WPC properties are influenced by wood content, wood r particle size, coupling agent, polymer type, and additives
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