ACCU DYNE TEST ™ Bibliography
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2856. no author cited, “Dynamic surface tension and surface energy in ink formulations and substrates,” https://www.pcimag.com/articles/85879-dynamic-surface-tension-and-surface-energy-in-ink-formulations-and-substrates, May 2001.
388. Wolf, R.A., “Corona treating & the printing process,” Flexo, 26, 58-59, (Jun 2001).
881. Meichsner, J., “Low-temperature plasmas for polymer surface modification,” in Low Temperature Plasma Physics: Fundamental Aspects and Applications, Hippler, R., S. Pfau, M. Schmidt, and K.H. Schoenbach, eds., 453-472, Wiley-VCH, Jun 2001.
1816. Napartovich, A.P., “Overview of atmospheric pressure discharges producing nonthermal plasma,” Plasmas and Polymers, 6, 1-14, (Jun 2001).
2023. Luner, P.E., and E. Oh, “Characterization of the surface free energy of cellulose ether films,” Colloids and Surfaces A: Physicochemical and Engineering Aspects, 181, 31-48, (Jun 2001).
2092. Steen, M.L., L. Hymas, E.D. Havey, N.E. Capps, D.G. Castner, and E.R. Fisher, “Low temperature plasma treatment of asymmetric polysulfone membranes for permanent hydrophilic surface modification,” J. Membrane Science, 188, 97-114, (Jun 2001).
888. Beake, B.D., N.J. Brewer, and G.J. Leggett, “Scanning force microscopy of polyester:Surface structure and adhesive properties,” in Advances in Scanning Probe Microscopy of Polymers (Macromolecular Symposia 167), Tsukruk, V.V., and N.D. Spencer, eds., 101-116, Wiley-VCH, Jul 2001.
956. Novak, I., and S. Florian, “Investigation of hydrophilicity of polyethylene modified by electric discharge in the course of ageing,” J. Materials Science Letters, 20, 1289-1291, (Jul 2001).
1933. Lee, L.-H., “The unified Lewis acid-base approach to adhesion and solvation at the liquid-polymer interface,” J. Adhesion, 76, 163-183, (Jul 2001).
2031. Lim, H., Y. Lee, S. Han, and J. Cho, “Surface treatment and characterization of PMMA, PHEMA, and PHPMA,” J. Vacuum Science and Technology A, 19, 1490-1496, (Jul 2001).
2408. Selwyn, G., I. Henins, S.E. Babayan, and R.F. Hicks, “Large area atmospheric-pressure plasma jet,” U.S. Patent 6262523, Jul 2001.
2499. Arefi-Khonsari, F., J. Kurdi, M. Tatoulian, and J. Amouroux, “On plasma processing of polymers and the stability of the surface properties for enhanced adhesion to metals,” Surface and Coatings Technology, 142-144, 437-446, (Jul 2001).
2545. Kropke, S., Y.S. Akishev, and A. Hollander, “Atmospheric pressure DC glow discharge for polymer surface treatment,” Surface and Coatings Technology, 142-144, 512-516, (Jul 2001).
122. Geitner, W., “Flame treatment effect on OPP,” AIMCAL News, 14, (Aug 2001).
1932. Li, L.-H., M. Tirrell, G.A. Korba, and A.V. Pocius, “Surface energy and adhesion studies on acrylic pressure sensitive adhesives,” J. Adhesion, 76, 307-334, (Aug 2001).
620. Vogler, E.A., “On the origins of water wetting terminology,” in Water in Biomaterials Surface Science, Morra, M., ed., 149-182, John Wiley & Sons, Sep 2001.
621. Della Volpe, C., and S. Siboni, “The evaluation of electron-donor and electron-acceptor properties and their role in the interaction of solid surfaces with water,” in Water in Biomaterials Surface Science, Morra, M., ed., 183-214, John Wiley & Sons, Sep 2001.
957. Jingxin, L., and L. Xia, “Surface graft polymerization of 2-hydroxyethyl methacrylate onto low-density polyethylene film through corona discharge in air,” J. Applied Polymer Science, 81, 2881-2887, (Sep 2001).
1040. Shenton, M.J., M.C. Lovell-Hoare, and G.C. Stevens, “Adhesion enhancement of polymer surfaces by atmospheric plasma treatment,” J. Physics D: Applied Physics, 34, 2754-2760, (Sep 2001).
1275. Lei, J., and X. Liao, “Surface graft copolymerization of 2-hyrdoxyethyl methacrylate onto low-density polyethylene film through corona discharge in air,” J. Applied Polymer Science, 81, 2881-2887, (Sep 2001).
1434. Kunz, M., “Surface modification of polymer substrates for improved adhesion of UV-cured systems,” in European Coatings Conference: Adhesion and Performance Enhancement, 115-128, Vincentz Verlag, Sep 2001.
1528. Shenton, M.J., and G.C. Stevens, “Surface modification of polymer surfaces: atmospheric plasma versus vacuum plasma treatments,” J. Physics D: Applied Physics, 34, 2761-2768, (Sep 2001).
1931. Zenkiewicz, M., “Some effects of corona discharge treatment of biaxially-oriented polypropylene film,” J. Adhesion, 77, 25-41, (Sep 2001).
2212. Nolan, M.D., S. Greig, and N. Jadon, “Corona, ozone and flame treaters for extrusion coating lines,” in 2001 Polymers, Laminations and Coatings Conference Proceedings, TAPPI Press, Sep 2001.
697. Jarvis, S.P., “Adhesion on the nanoscale,” in Nano-Surface Chemistry, Rosoff, M., ed., 17-58, Marcel Dekker, Oct 2001.
1930. Li, L.-H., C. Macosko, G.L. Korba, A.V. Pocius, and M. Tirrell, “Interfacial energy and adhesion between acrylic pressure sensitive adhesives and release coatings,” J. Adhesion, 77, 95-123, (Oct 2001).
1929. Leahy, W., V. Barron, M. Buggy, T. Young, A. Mas, F. Schue, T. McCabe, M. Bridge, “Plasma surface treatment of aerospace materials for enhanced adhesive bonding,” J. Adhesion, 77, 215-249, (Nov 2001).
2409. Blose,F., and K. Dippmann, “Corona station for the preliminary processing of a strip material,” U.S. Patent 6320157, Nov 2001.
887. Veselovsky, R.A., and V.N. Kestelman, Adhesion of Polymers, McGraw-Hill, Dec 2001.
893. Hibbard, D., “Sticky science: new polymer technology makes it easier to paint and glue plastic parts,” Modern Paints & Coatings, 91, 31, (Dec 2001).
1246. Pijpers, A.P., and R.J. Meier, “Adhesion behaviour of polyproylenes after flame treatment determined by XPS (ESCA) spectral analysis,” J. Electron Spectroscopy and Related Phenomena, 121, 299-313, (Dec 2001).
1385. Tusek, L., M. Nitschke, C. Werner, K. Stana-Kleinschek, V. Ribitsch, “Surface characterization of NH3 plasma treated polyamide 6 foils,” Colloids and Surfaces A: Physicochemical and Engineering Aspects, 195, 81-95, (Dec 2001).
1724. no author cited, “Surface free energy of polymers - Optimisation of the determination of polymer surface free energy,” Materials Australia, 33, (Dec 2001).
2193. Donberg, D., “One new treater, many new benefits,” Paper Film & Foil Converter, 75, 0, (Dec 2001).
404. no author cited, “Standard T552: Determination of wetting tension of polyolefin films and coated surfaces via the mayer rod technique,” in TAPPI 2002 - 2003 Test Methods, TAPPI Press, 2002.
405. no author cited, “Standard T698: Determination of wetting tension of polyethylene and polypropylene films and coatings (modified visking analytical technique),” in TAPPI 2002 - 2003 Test Methods, TAPPI Press, 2002.
661. Gutowski, W.S., S. Li, L. Russell, C. Filippou, M. Spicer, and P. Hoobin, “Molecular brush concepts in surface engineering of polymers for enhanced adhesion of adhesives and polymeric coatings,” in Adhesive Joints: Formation, Characteristics and Testing, Vol. 2, Mittal, K.L., ed., 3-48, VSP, 2002.
1194. Banik, I., K.S. Kim, Y.I. Yun, D.H. Kim, C.M. Ryu, and C.E. Park, “Inhibition of aging in plasma-treated high-density polyethylene,” J. Adhesion Science and Technology, 16, 1155-1169, (2002).
1204. Chibowski, E., A. Ontiveros-Ortega, and R. Perea-Carpio, “On the interpretation of contact angle hysteresis,” J. Adhesion Science and Technology, 16, 1367-1404, (2002).
1213. Green, M.D., F.J. Guild, and R.D. Adams, “Characterisation and comparison of industrially pre-treated homopolymer polypropylene, HF135M,” Intl. J. Adhesion and Adhesives, 22, 81-90, (2002).
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