Electrical conductivity of polymer composites based on carbonized wood flour via plasma post‐treatment as an effective and economical filler
Woo Young Kim, Ji‐un Jang, Hun Su Lee, Seong Yun Kim
Abstract
Abstract The recycling of waste resources is not optional but rather essential to achieve a sustainable human future. In this study, the feasibility of carbonized wood flour (CWF) as a conductive filler was evaluated for improving the electrical conductivity of polymer composites because wood flour is a sustainable and promising precursor for CWF filler, as a naturally abundant and industrially steady resource. The optimized electrical conductivity of the composite with 25 wt% CWF post‐treated by the inductively coupled plasma (ICP), proposed in this study, was 71 S/m, exceeding that of the carbon black (CB)‐filled composite (12 S/m). In addition, the estimated production cost of ICP treated CWF ($1.35–1.55/kg) was about 22.5%–32.5% lower than that of commercial CB ($2/kg). Therefore, the CWF was an effective, economical, and eco‐friendly conductive filler to enhance the electrical conductivity of polymer composites.