Abstract
Poly (vinyl alcohol) (PVA) is a versatile polymer that when modified with functional groups can be polymerized to produce hydrogels with a range of mechanical properties. In this study, PVA was modified with pendent acrylamide groups and crosslinked via photopolymerisation. The swelling behavior and tensile properties of the resulting hydrogels were studied as a function of percent macromer at the time of polymerization, functional group density, backbone molecular weight, and percent hydrolysis of the PVA. Percent macromer had the strongest influence, with tensile modulus increasing in direct proportion to increasing percent macromer. Changing the functional group density of the macromers as well as changing the molecular weight of the PVA backbone significantly impacted the swelling and mechanical behavior. Although percent hydrolysis of the PVA backbone resulted only in slight variations in the network, it did prove to be a significant variable. However, it was also found that the tensile modulus was d...
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