CONICET | Buscador de Institutos y Recursos Humanos

Las redes epoxi son una familia de compuestos con uso extensivo en aplicaciones tales comorecubrimientos, adhesivos y materiales compuestos avanzados. Exhiben diferentes propiedadesfuncionales tales como la capacidad de modificar su forma en respuesta a estímulos externos (epoxi conmemoria de forma o SME por sus siglas en inglés), o su capacidad para intercambiar segmentos en suestructura química cuando se calientan a temperaturas superiores a la temperatura crítica (vitrímerosepoxi o EV). Los vitrímeros constituyen uno de los descubrimientos más importantes en el campo de lospolímeros de los últimos años. Se comportan de diferente manera según se varíe la temperatura porencima o debajo de la temperatura crítica. Por encima de la misma pueden fluir e intercambiar segmentosde cadenas elásticas sin modificar la densidad de entrecruzamiento. Epoxy networks are one of the most important families of thermosetting polymers with an extensive useas adhesives, coatings and matrices of advanced composites. In recent years, smart materials based onepoxy formulations were developed. They exhibit different functional properties such as the capacity ofmodifying their shape in response to an external stimulus (shape-memory epoxies, SME) or the capacityof interchanging segments of their chemical structures when heated above a critical temperature (epoxyvitrimers, EV). Vitrimers are one of the most important recent discoveries in the field of polymers. Theybehave as conventional thermosets below the critical temperature but they can flow at highertemperatures interchanging segments of elastic chains while keeping a constant crosslink density. Thisenables their self-healing, recycling and welding as well as the relaxation of strained chains. SME and EVare activated by adequate heating/cooling cycles. Incorporation of specific nanoparticles (NPs) capable ofconverting IR or visible light radiation into heat (photothermal effect) makes it possible the remoteactuation of these smart materials. Similarly, incorporation of magnetic NPs can be used to produce theremote heating by exposure to an alternating magnetic field (magnetic hyperthermia). The photothermaleffect provides also the possibility of local heating and, therefore, a local response (e.g., localized shaperecovery or the self-healing of a localized area). Besides, the synthesis of smart epoxy nanocompositesrequires the appropriate functionalization of NPs to produce their uniform dispersion in the epoxy matrix.In this article, we review recent selected papers dealing with the development of EV and SMEnanocomposites that can be remotely activated.

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