This research is part of an effort directed toward obtaining polymers with minimally adhesive surfaces. Fluorinated polyurethanes based on a series of ethylene-fluoroalkyl-ethylene diols and hexamethylene diisocyanate were prepared and characterized to include a preliminary evaluation of surface properties. Polymerization was carried out both in bulk and in tetrahydrofuran solution. Glass transition temperatures of the resulting polymers were ca. 20 °C. Average molecular weights, determined by GPC, were in the range Mw = (12-54) X 10* 123. Mechanical properties were determined using an Instron tester. Young's modulus ranged from 1 to 56 MPa depending on composition and processing history. High strain-at-break values were observed ranging from ca. 900 to 1800 %. A significant decrease in surface free energy from 31.5 to 25.5 erg/cm2 was seen with an increase in the fluorocarbon content from 58 to 64 wt %.
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