The self-healing polymers are a class of smart materials able to recover after sustaining damage. An epoxy resins containing Diels-Alder (D-A) adducts in the backbone and related single-fiber composites were prepared and characterized. A chemical treatment was implemented at the interphase between glass fiber and polymeric matrix in order to induce the interphase healing capability. The synergistic effect of self-healing at the interphase and in bulk resin has been assessed. The overall recovery mechanism has been investigated by means of micro-droplet pull out test and spectroscopic analysis.

An integrated strategy to promote self-healing at interface in composites based on Diels-Alder epoxy

Martone A;Dello Iacono S;Amendola;
2018

Abstract

The self-healing polymers are a class of smart materials able to recover after sustaining damage. An epoxy resins containing Diels-Alder (D-A) adducts in the backbone and related single-fiber composites were prepared and characterized. A chemical treatment was implemented at the interphase between glass fiber and polymeric matrix in order to induce the interphase healing capability. The synergistic effect of self-healing at the interphase and in bulk resin has been assessed. The overall recovery mechanism has been investigated by means of micro-droplet pull out test and spectroscopic analysis.
2018
978-0-7354-1697-0
self-healing
Diels-Alder
fiber reinforced composite
active interface
interfacial shear strength
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/381230
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