When 10:30 AM - 11:30 AM Jan 16, 2015
Where 1670 Beyster Building
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The Evolution of Vascularized Polymers and Composites


Nancy R. Sottos
University of Illinois at Urbana-Champaign, Materials Science and Engineering

Integration of microvascular networks in synthetic materials provides an effective vehicle for the distribution and replenishment of active fluids throughout the material, enabling of a plurality of biologically inspired functions such as self-healing, regeneration, self-sensing, self-protection and self-cooling.  Several approaches exist for fabricating complex microvascular networks in structural polymers and composites including soft lithography, laser micromachining, electrostatic discharge, and fugitive inks.  In our most recent work, sacrificial material consisting of the biopolymer poly(lactic) acid (PLA) is treated with a tin catalyst to accelerate thermal depolymerization and formed into sacrificial templates across multiple dimensions and spanning several orders of magnitude in scale: spheres (0D), fibers (1D), sheets (2D), and 3D printed. The templates are embedded in polymers and composites and removed using a thermal treatment process, vaporization of sacrificial components (VaSC), leaving behind an inverse replica.  This seminar describes the progression of microvascular materials from relatively primitive networks to heal small cracks in a polymer coatings to fully three-dimensional bio-inspired vasculature integrated in multifunctional fiber reinforced composites, to the use of vascular delivery for regeneration of new material following catastrophic, large scale damage.

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