Characterization of a new natural cellulosic fiber extracted from Derris scandens stem

Abstract

The present study aims to identify a potential substitute for the harmful synthetic fibers in the field of polymer composites. With this objective, a comprehensive characterization of Derris scandens stem fibers (DSSFs) was carried out. The presence of high strength gelatinous fibers with a traditional hierarchical cell structure was found in the anatomical study. The chemical compositional analysis estimated the cellulose, hemicellulose, and lignin contents of 63.3 wt%, 11.6 wt%, and 15.3 wt%, respectively. Further analysis with XRD confirmed the presence of crystalline cellulose having a size of 11.92 nm with a crystallinity index of 58.15%. SEM and AFM studies show that these fibers are porous, and the average roughness is 105.95 nm. Single fiber tensile tests revealed that the DSSFs exhibited the mean Young's modulus and tensile strength of 13.54 GPa and 633.87 MPa respectively. Furthermore, the extracted fibers were found to be thermally stable up to 230 °C, as confirmed by thermogravimetric analysis. The fibers extracted from the stem of medicinal plant Derris scandens have the properties comparable to that of existing natural fibers, thus, suggesting it to use as a highly promising reinforcing agent alternative to synthetic fibers in polymer matrix composites.