Extraction and characterization of natural cellulosic fiber from Mariscus ligularis plant as potential reinforcement in composites

Abstract

In this paper, fiber from the Mariscus ligularis (ML) plant was extracted and investigated as a naturally derived fiber for its potential as a reinforcement material for composite applications. Physical, morphological, chemical, thermal, and mechanical property analyses of the Mariscus ligularis fiber (MLF) were performed to evaluate its suitability as a reinforcement material while also generating useful data to serve as the basis for its selection in the development of new composite materials. Physical and morphological analysis results showed MLF as a lightweight fiber of diameter 243.6 μm and density 768.59 kg/m3 with a very rough surface that provides excellent interfacial bonding performance. Chemical and thermal results show MLF has mainly cellulose as its crystallized phase, with cellulose and wax contents of 58.32 % and 0.73 %, respectively, and possesses a 72.23 % crystallinity index and a 3.15 nm crystallite size with thermal stability up to 258 °C. The mechanical results show that the tensile strength, elastic modulus, strain to failure, and microfibril angle were in the ranges of 109–134 MPa, 3.27–5.06 GPa, 3.32–9.13 %, and 13.35–20.33°, respectively. These findings show MLF as a potential reinforcement material.