Journal Publications Details for:

Benign Processing of Polymers Plasticized with Absorbed Carbon Dioxide
Grant Number R829555
RFA: Technology for a Sustainable Environment (2001)
Journal Article (7)
Reference Type Citation Progress Report Year Document Sources
Journal Article Bortner MJ, Baird DG. Absorption of CO2 and subsequent viscosity reduction of an acrylonitrile copolymer. Polymer 2004;45(10):3399-3412. R829555 (2003)
R829555 (Final)
Journal Article Bortner MJ, Bhanu VA, McGrath JE, Baird DG. Absorption of CO2 in high acrylonitrile content copolymers: dependence on acrylonitrile content. Polymer 2004;45(10):3413-3422. R829555 (Final)
Journal Article Bortner MJ, Bhanu V, McGrath JE, Baird DG. Shear rheological properties of acrylic copolymers and terpolymers suitable for potentially melt processable carbon fiber precursors. Journal of Applied Polymer Science 2004;93(6):2856-2865. R829555 (2003)
R829555 (Final)
Journal Article Nguyen QT, Baird DG. An improved technique for exfoliating and dispersing nanoclay particles into polymer matrices using supercritical carbon dioxide. Polymer 2007;48(23):6923-6933. R829555 (Final)
Journal Article Nguyen QT, Baird DG. Dispersion of nanoclay into polypropylene with carbon dioxide in the presence of maleated polypropylene. Journal of Applied Polymer Science 2008;109(2):1048-1056. R829555 (Final)
Journal Article Wilding MD, Baird DG, Eberle APR. Melt processability and foam suppression of high molecular weight polyethylenes plasticized with supercritical carbon dioxide. International Polymer Processing 2008;23(2):228-237. R829555 (Final)
Journal Article Wilding MD, Baird DG. Melt processing and rheology of an acrylonitrile copolymer with absorbed carbon dioxide. Polymer Engineering & Science 2009;49(10):1990-2004. R829555 (Final)