Properties and characterization of cerber mangas (sea mango) filled poly (vinyl alcohol) biocomposite films
Abstract
This research was focused on the effect of sea mango fiber (SMF) content and chemical
modification on tensile and thermal properties, morphology and moisture content of poly(vinyl alcohol) (PVA)/sea mango fiber (SMF) biocomposite films. The sea mango fiber
filled poly (vinyl) alcohol biocomposite films were prepared by casting method at
temperature 50°C for 24 hours. The biocomposite films were prepared with different SMF
content from 0, 5, 10, 15 and 20 wt%. The result showed that the increasing SMF content
has increased the tensile strength. The modulus of elasticity increased but the elongation at
break decreases as the SMF content increased in PVA/SMF biocomposite films. The
addition of SMF content also increased the moisture content of biocomposite films. The
higher SMF content possessed better thermal stability. The scanning electron microscope
(SEM) study was proven the poor interfacial adhesion between SMF and PVA matrix. The
methyl methacrylate acid (MMA) was used as chemical modification. The chemical
modification of SMF improved the properties of modified biocomposite films. The results
indicates that the modified biocomposite films have higher tensile strength and modulus of
elasticity but exhibit lower elongation at break compared to unmodified biocomposite
films. The modified biocomposite films with MMA also lower the moisture content. The
modified biocomposite films exhibits lower total weight loss at temperature 700°C
compared to unmodified biocomposite films. The improved interfacial adhesion of
modified PVA/SMF biocomposite films were proved by the morphological study. The
FTIR showed the chemical modification of SMF with MMA reduced the hydroxyl group of
SMF.