Banana/sisal fibers reinforced poly(lactic acid) hybrid biocomposites; influence of chemical modification of BSF towards thermal properties

The present work focused on thermal behavior of biocomposites based on poly(lactic acid) (PLA) reinforced with untreated and benzoyl peroxide (BP) treated banana/sisal fibers (BSF) combination. Fabrication of biocomposites was performed by extrusion followed by injection molding. Fourier transformed infrared (FTIR) spectral technique ascertained the nature of bonding between BSF and PLA. The thermal properties of virgin PLA, UT‐BSF/PLA, and BP‐T‐BSF/PLA composites were studied by DSC and TGA analysis. DSC analysis indicated no significant changes in the glass transition temperature ( T g ) and melting temperature ( T m ) of virgin PLA, UT‐BSF/PLA, and BP‐T‐BSF/PLA composites and no sign of crystallization for both virgin PLA, UT‐BSF/PLA composites. However, crystallization was observed in BP‐T‐BSF/PLA composites. The BP‐T‐BSF/PLA composite exhibited a delayed thermal degradation pattern from TGA analysis when compared to that of UT‐BSF/PLA composites and virgin PLA as well. Further, the effect of BSF treatment and hybridization of BSF with PLA on the degree of crystallinity ( X c ) were explored in detail. The above said composites were also investigated through scanning electron microscope (SEM) micrographs to examine the adhesion between the PLA and BSF. In addition, the results of SEM acquired are in good agreement with the data resulted from FTIR and thermal characterization. POLYM. COMPOS., 38:1053–1062, 2017. © 2015 Society of Plastics Engineers