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Abstract:Fiber-reinforced polymer (FRP) composites are attractive structural materials due to their high specific strength/stiffness and excellent corrosion resistance. However, constituent heterogeneity and lack of through-thickness reinforcement in layered FRP composites creates inherent susceptibility to fiber-matrix debonding (i.e., interlaminar delamination). This multi-scale damage mode has proven difficult to detect/repair via conventional methods and remains a significant factor limiting the reliability of laminated composites in lightweight structures.
In this talk, I will describe the development of a self-healing composite platform1-3 based on thermally-induced dynamic bond re-association of 3D-printed polymer interlayers. In contrast to prior thermal remending approaches, self-repair occurs in situ via resistive heating and below the glass-transition temperature of the thermoset epoxy matrix, thus preserving elastic modulus during repair. Rapid (minute-scale) and sustained (1000+) self-healing cycles have been achieved with fracture recovery reaching 100% of the toughened composite. In addition to capacity for self-repair, a self-sensing strategy is integrated to synchronously and repeatedly monitor both damage and healing, which provides feedback control for autonomous function. These latest FRP composite innovations exhibit unprecedented capacity for in-service diagnostics and self-repair, but also multi-functionality (e.g., thermal deicing), which engenders application versatility alongside structural resilience.
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Bio:Jason Patrick is an Associate Professor in the Department of Civil, Construction, and Environmental Engineering with a courtesy appointment in Mechanical and Aerospace Engineering at NC State University. He obtained his Ph.D. in Structural Engineering from the University of Illinois Urbana-Champaign and was a Postdoctoral Fellow at the Beckman Institute before becoming faculty. Prof. Patrick has 20+ years of experience in R&D of advanced fiber-reinforced polymer composites with several patents issued and ongoing federally funded research projects by the DoD and NSF. He is a recipient of the US Air Force Young Investigator Award. Dr. Patrick’s group is directed toward the understanding and development of bioinspired material systems that exhibit multi-functionality for enhanced performance, reliability and longevity.