Vigilancia Tecnológica

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High?performance self?healing anticorrosion epoxy coating based on microencapsulated epoxy?amine chemistry

Graphical abstractAbstractThis study investigated incorporating fish scale powder (FSP) as a bio?filler into polylactic acid (PLA) raw material for polymeric 3D printing. The PLA/FSP filaments were evaluated for various properties (tensile strength, tensile modulus, elongation, diameter deviation, thermogravimetric analysis, surface roughness, and SEM analysis) at different compositions (PLA, PLA/FSP10, PLA/FSP20, and PLA/FSP30 wt%). The results revealed that PLA filaments reinforced with 20?wt% FSP achieved the highest tensile strength, and modulus is 44.49?MPa and 2.83?GPa. The filaments reinforced with neat PLA and PLA with 10?wt% fish scale powder exhibited minor diameter deviations of +0.002 and ?0.002. The surface roughness of the neat PLA filament is notably higher, registering a value of 1.459??m. This finding highlights the importance of considering surface characteristics in filament selection for 3D printing applications. The microscopic analysis confirmed a uniform distribution of FSP particles in the 20?wt% composition PLA/FSP filaments. These results suggest that PLA/FSP (20?wt%) is an optimal feedstock for 3D printing, especially in developing biomaterials like bio?scaffolds.


Fecha publicación: 2023/12/27

Journal of Applied Polymer Science

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