(427e) Development of Remendable Polymers with Thermally Reversible Bonds
AIChE Annual Meeting
2008
2008 Annual Meeting
Materials Engineering and Sciences Division
Multifunctional Composites
Wednesday, November 19, 2008 - 10:10am to 10:35am
Materials that can recover properties following mechanical failure are desirable, as they offer increased durability and safety. Mendable materials are particularly desirable for load-bearing applications in which material failure is costly and dangerous.
Inspiration for remendable materials comes from nature and there is a great interest in developing biomimetic processes by a number of functionalities can be applied to synthetic materials. Biomimicry in remendable materials has led to composites with vascular networks that ?bleed? resin when a crack forms.
Epoxy-amine thermosets are high modulus materials that are used in composites for their mechanical strength. We report on the development of two healing systems for epoxy-amine thermosets based on the thermoreversible Diels-Alder reaction of furan and maleimide. In one, crack healing of a traditional epoxy-amine thermoset is induced by thermally reversible crosslinking of a secondary phase. In the other, furan functionalization of an epoxy-amine thermoset allows for in situ crack healing of this thermoset with a bismaleimide solution. Both phenomena occur at room temperature and minimal pressure and significant load recovery is possible multiple times in a given location.
Load recovery is postulated to be the result of both physical and chemical bonding across the crack surface. Physical bonding is caused by solvent-mediated swelling and subsequent interlocking of crack surfaces, while chemical bonding results from the Diels-Alder reaction of furan and maleimide. This form of the Diels-Alder reaction is reversible, forming a ring structure at room temperature and reforming the respective diene and dienophile between 60 and 90°C.
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