Vigilancia Tecnológica

Schematic representation of use of PLA composites in implants.A detailed investigation was employed on the manufacturing process of Glass Fiber (GF) reinforced poly?L?lactide (PLLA) composites (GFRP) during in?situ PLLA polymerization using Resin Transfer Molding (RTM). The lower viscosity of lactide, in comparison to PLLA, led to a strong interaction between PLLA and GF as a result of improved penetration into the fiber matrix, resulting in a high conversion rate of 100% for GFRP and 91.9% for PLLA. GF incorporation into the composite material resulted in an improved crystallinity of 55.65% for GFRP, where PLLA showed crystallinity of 36.5%. A GFRP composite with exceptional mechanical properties, including 122.3?MPa tensile strength and 4.485?GPa modulus, was achieved. Both surface and bulk erosion were seen during the breakdown of these composites. These composites seem to be a viable substitute for metallic implants in biological applications.HighlightsIn situ, resin transfer molding of poly?l?lactide and GF composite.Higher volume fraction such as 40% w/v loading of GF into composites.1% conversion of GFRP is achieved.GFRP shows the machinal strength of 122?MPa and harness of 4.2?GPa.Biocompatibility of GFRP composites in body stimulated conditions.