TY - JOUR A1 - Afolabi, L.O. A1 - Megat-Yusoff, P.S.M. A1 - Ariff, Z.M. A1 - Hamizol, M.S. PB - Elsevier Editora Ltda SP - 3102 KW - Alkalinity; Bleaching; Chemical properties; Cleaning; Composite materials; Extraction; Fibers; Mechanical properties; Natural fibers; Plants (botany); Reinforcement; Scanning electron microscopy; Screws; Sodium hydroxide; Tensile strength; Textile fibers; Thermodynamic properties KW - Engineering applications; Extraction process; Microstructural analysis; Natural cellulose fibers; Pandanus tectorius; Polymer composite; Reinforcement fibers; Vacuum resin infusions KW - Cellulose KW - Alkalinity; Bleaching; Chemical Properties; Cleaning; Composites; Extraction Y1 - 2019/// AV - none VL - 8 IS - 3 JF - Journal of Materials Research and Technology SN - 22387854 TI - Fabrication of pandanus tectorius (screw-pine) natural fiber using vacuum resin infusion for polymer composite application N1 - cited By 15 ID - scholars11603 N2 - Natural cellulose fiber extract from Pandanus tectorius (Screw pine) leaves is comprehensively investigated as viable alternative for synthetic based fibers made from petro-chemical which is non-degradable and toxic. P. tectorius leaves fiber is extracted and investigated as reinforcement in polymer composite for engineering applications. The habitant are easily found and grown along mangroves and in local jungles located at shallow water. The plant can grow up to 14 m tall. In order to use these continuous cellulose fibers as reinforcement in polymer composites, the microstructural analysis and yield content analysis were carried out using SEM micrographs to establish the certainty of using them as reinforcement fiber. The alkaline, bleaching and combined alkaline-bleach treatments are utilized in extraction of the cellulose fiber to evaluate the effect on the mechanical property. The cellulose percentage of the fiber was increased as the concentration and soaking time were increased. The extraction process resulted in 73 cellulose percentage for 10 wt. NaOH and 120 min treatment. Hence, it caused 87 increment in cellulose percentage compared to the untreated leaf. The combined alkali-bleach cellulose fiber composite showed 40 higher tensile strength compared to untreated cellulose fiber composite at 35 2.8 MPa. © 2019 The Authors. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85067136076&doi=10.1016%2fj.jmrt.2017.05.021&partnerID=40&md5=d1615557f7f4f54441ea7639ce4de855 EP - 3113 ER -