31 |
Melt processability and foam suppression of high molecular weight polyethylenes plasticized with supercritical carbon dioxide Wilding MD, Baird DG, Eberle APR International Polymer Processing, 23(2), 228, 2008 |
32 |
Dispersion of nanoclay into polypropylene with carbon dioxide in the presence of maleated polypropylene Nguyen QT, Baird DG Journal of Applied Polymer Science, 109(2), 1048, 2008 |
33 |
First normal stress difference measurements for polymer melts at high shear rates in a slit-die using hole and exit pressure data Baird DG Journal of Non-Newtonian Fluid Mechanics, 148(1-3), 13, 2008 |
34 |
The role of nanoclay in the generation of poly(ethylene terephthalate) fibers with improved modulus and tenacity Litchfield DW, Baird DG Polymer, 49(23), 5027, 2008 |
35 |
Development of bipolar plates for fuel cells from graphite filled wet-lay material and a thermoplastic laminate skin layer Cunningham BD, Huang JH, Baird DG Journal of Power Sources, 165(2), 764, 2007 |
36 |
Development of bipolar plates for fuel cells from graphite filled wet-lay material and a compatible thermoplastic laminate skin layer Cunningham BD, Baird DG Journal of Power Sources, 168(2), 418, 2007 |
37 |
An improved technique for exfoliating and dispersing nanoclay particles into polymer matrices using supercritical carbon dioxide Nguyen QT, Baird DG Polymer, 48(23), 6923, 2007 |
38 |
Preparation of polymer-clay nanocomposites and their properties Nguyen QT, Baird DG Advances in Polymer Technology, 25(4), 270, 2006 |
39 |
A photocrosslinkable melt processible acrylonitrile terpolymer as carbon fiber precursor Mukundan T, Bhanu VA, Wiles KB, Johnson H, Bortner M, Baird DG, Naskar AK, Ogale AA, Edie DD, McGrath JE Polymer, 47(11), 4163, 2006 |
40 |
Development of fuel cell bipolar plates from graphite filled wet-lay thermoplastic composite materials Huang JH, Baird DG, McGrath JE Journal of Power Sources, 150, 110, 2005 |