Abstract
Wood-polymer composites (WPCs) with polypropylene (PP) matrix suffer from low toughness, and fossil-based impact modifiers are used to improve their performance. Material substitution of virgin fossil-based materials and material recycling are key aspects of sustainable development and therefore recycled denim fabric, and elastomer were evaluated to replace the virgin elastomer modifier commonly used in commercial WPCs. Microtomography images showed that the extrusion process fibrillated the denim fabric into long, thin fibers that were well dispersed within the WPC, while the recycled elastomer was found close to the wood fibers, acting as a soft interphase between the wood fibers and PP. The fracture toughness (K(IC)) of the WPC with recycled denim fabric matched the commercial WPC which was 1.4 MPa m(1/2) and improved the composite tensile strength by 18% and E-modulus by 54%. Recycled elastomer resulted in slightly lower K(IC,) 1.1 MPa m(1/2), as well as strength and modulus while increasing elongation and contributing to toughness. The results of this study showed that recycled materials can potentially be used to replace virgin fossil-based elastomeric modifiers in commercial WPCs, thereby reducing the CO(2) footprint by 23% and contributing to more efficient use of resources.