alexa Autonomic healing of polymer composites.
Engineering

Engineering

Journal of Architectural Engineering Technology

Author(s): White SR, Sottos NR, Geubelle PH, Moore JS, Kessler MR,

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Abstract Structural polymers are susceptible to damage in the form of cracks, which form deep within the structure where detection is difficult and repair is almost impossible. Cracking leads to mechanical degradation of fibre-reinforced polymer composites; in microelectronic polymeric components it can also lead to electrical failure. Microcracking induced by thermal and mechanical fatigue is also a long-standing problem in polymer adhesives. Regardless of the application, once cracks have formed within polymeric materials, the integrity of the structure is significantly compromised. Experiments exploring the concept of self-repair have been previously reported, but the only successful crack-healing methods that have been reported so far require some form of manual intervention. Here we report a structural polymeric material with the ability to autonomically heal cracks. The material incorporates a microencapsulated healing agent that is released upon crack intrusion. Polymerization of the healing agent is then triggered by contact with an embedded catalyst, bonding the crack faces. Our fracture experiments yield as much as 75\% recovery in toughness, and we expect that our approach will be applicable to other brittle materials systems (including ceramics and glasses). This article was published in Nature and referenced in Journal of Architectural Engineering Technology

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