Abstract
AbstractPolypropylene (PP)‐based composites with reinforcements of CaCO3and rice husk ash (RHA, agricultural waste) are extensively used in textile industry and manufacturing of plastic yarns, tapes, etc. Tribological properties of the PP‐CaCO3‐RHA based composite are studied using constant‐ and progressive‐load scratching. The progressive load scratching depicts a transient‐state interaction, whereas, constant load scratching depicts steady‐state of wear, hence, both modes of scratching are reported to highlight the aspects of damage initiation and damage tolerance on PP‐based composites. The average scratch hardness and toughness of the PP composites improved with reinforcement in both modes of scratching. The reinforcement of 20 wt% RHA and 10 wt% RHA with 10 wt% CaCO3 in PP matrix, marginally improves (0.8%‐1.6%) the wear resistance (wear rate, WR of 12.1‐12.2 mm3 N−1 m−1) during the progressive load scratching compared to that of pure PP (12.3 mm3 N−1 m−1). Poor wear resistance (WR = 12.6 mm3 N−1 m−1) with the addition of 20 wt% CaCO3 in PP matrix during the progressive wear is attributed to poor adhesion (adhesion factor: 0.61) of CaCO3 with PP. Also, an over estimation (3.4‐4.6 times) of wear rate is attributed to high recovery (0.63‐0.77) and the plastic deformation ahead of the scratch tip in the PP‐based composite with viscoelastic nature. High‐wear rate with CaCO3 agglomerate with poor sinterability at 200 °C can be substituted with the strong adhesive nature of RHA (bimodal pore distribution) in PP matrix to achieve optimal hardness, elastic modulus, and scratch resistance.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call