ACCU DYNE TEST ™ Bibliography
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2048. Hansen, C.M., “New simple method to measure polymer surface tension,” Pigment & Resin Technology, 27, 374-378, (1998).
475. Hansen, C.M., and E. Wallstrom, “On the use of cohesion parameters to characterise surfaces,” J. Adhesion, 15, 275+, (1983).
1725. Hansen, F.K., “The measurement of surface energy of polymer by means of contact angles of liquids on solid surfaces: A short overview of frequently used methods,” http://www.ramehart.com/goniometers/support/surface_energy_finn.pdf, 0.
1452. Hansen, G.P., R.A. Rushing, R.W. Warren, S.L. Kaplan, and O.S. Kolluri, “Plasma treatment of polytetrafluoroethylene-ethylene copolymers for adhesive bonding,” Intl. J. Adhesion and Adhesives, 11, 247-254, (Oct 1991).
1457. Hansen, G.P., R.A. Rushing, R.W. Warrent, S.L. Kaplan, and O.S. Kolluri, “Achieving optimum bond strength with plasma treatment,” in Adhesives '89, Sep 1989.
152. Hansen, M.H., M.F. Finlayson, M.J. Castille, and J.D. Goins, “The role of corona discharge treatment in improving polyethylene-aluminum adhesion: an acid-base perspective,” TAPPI J., 76, 171-177, (Feb 1993).
153. Hansen, M.H., M.F. Finlayson, and M.H. Vaughn, “Characterizing aluminum adhesion for low density polyethylene,” in 1991 Polymers, Laminations and Coatings Conference Proceedings, 349-352, TAPPI Press, Aug 1991.
476. Hansen, R.H., “Interface conversion of polymers by excited gases,” in Symposium on Interface Conversion for Polymer Coatings, Elsevier, 1968.
154. Hansen, R.H., J.V. Pascale, T. DeBenedictis, and P.M. Rentzepis, “Effect of atomic oxygen on polymers,” J. Polymer Science, 3, Part A, 2205-2214, (1965).
155. Hansen, R.H., and H. Schonhorn, “A new technique for preparing low surface energy polymers for adhesive bonding,” J. Polymer Science, Polymer Letters Edition, 4, 203-209, (1966).
1599. Harkins, W.D., The Physical Chemistry of Surface Films, Reinhold, 1952.
156. Harkins, W.D., and H.F. Jordan, “A method for the determination of surface and interfacial tension from the maximum pull on a ring,” J. American Chemical Society, 52, 1751-1772, (1930).
157. Harrington, W., “Corona treating aids bonding,” Adhesives Age, 40, 52, (Jun 1997).
1153. Harrington, W.F. Jr., “Surface treatment of plastics,” in Coatings Technology Handbook, Satas, D., ed., Marcel Dekker, 1991 (also in Coatings Technology Handbook, 2nd Ed., D. Satas and A.A. Tracton, eds., p. 335-342, Marcel Dekker, Jan 2001, and Coatings Technology: Fundamentals, Testing, and Processing Techniques, A.A. Tracton, ed., p. 38/1-38/7, CRC Press, Oct 2006).
690. Hart, C.P., “Metallized films having an inherent copolyester coating,” U.S. Patent 4971863, Nov 1990.
1060. Hartland, S., ed., Surface and Interfacial Tension: Measurement, Theory, and Applications, Marcel Dekker, 2004.
1822. Hasselbacher, N., “Prestige treatment,” Converting, 27, 36-39, (Feb 2009).
1962. Hata, T., Y. Kitazaki, and T. Saito, “Estimation of the surface energy of polymer solids,” J. Adhesion, 21, 177-194, (Apr 1987).
2299. Hata. T., and T. Kasemura, “Surface and interfacial tensions of polymer melts and solutions,” in Adhesion and Adsorption of Polymers, Part A, Lee, L.-H., ed., 15-42, Plenum Press, 1980.
2364. Hatada, K., and Y. Yamaguchi, “Method for surface treatment of plastics,” U.S. Patent 3900538, Aug 1975.
2028. Hautojarvi, J., and S. Laaksonen, “On-line surface modification of polypropylene fibers by corona treatment during melt-spinning,” Textile Research J., 70, 391-396, (2000).
478. Hayes, L.J., “Surface energy of fluorinated surfaces,” J. Fluorinated Chemistry, 8, 69+, (1976).
1643. Hazlett, R.D., “On surface roughness effects in wetting phenomena,” in Contact Angle, Wettability and Adhesion: Festschrift in Honor of Professor Robert J. Good, Mittal, K.L., ed., 173-181, VSP, Nov 1993.
638. Heath, R.J., “Review of the surface coating of polymeric substrates. Need to adopt surface and interfacial science priciples to improve product quality,” Progress in Rubber and Plastics Technology, 6, 369-401, (1990).
1431. Hedenqvist, M.S., A. Merveille, K. Odelius, A.-C. Albertsson, and G. Bergman, “Adhesion of microwave-plasma-treated fluoropolymers to thermoset vinylester,” J. Applied Polymer Science, 98, 838-842, (Oct 2005).
Poly(tetrafluoroethylene) and a fluoroethylene copolymer were surface treated with a 2.45-GHz microwave plasma to enhance their adhesion to a vinylester thermoset. The plasmas were generated with an inert gas (Ar) and with reactive gases (H2, O2, and N2). The lap-joint shear stress was measured on fluoropolymer samples glued with the vinylester. In general, the stress at failure increased with increasing plasma-energy dose. The H2 plasma yielded the best adhesion, and X-ray photoelectron spectroscopy revealed that it yielded the highest degree of defluorination of the fluoropolymer surface. The defluorination efficiency declined in the order H2, Ar, O2, and N2. Contact angle measurements and scanning electron microscopy revealed that the surface roughness of the fluoropolymer depended on the rate of achieving the target energy dose. High power led to a smoother surface, probably because of a greater increase in temperature and partial melting. © 2005 Wiley Periodicals, Inc. J Appl Polym Sci 98: 838–842, 2005
https://onlinelibrary.wiley.com/doi/abs/10.1002/app.22174
2540. Hegemann, D., H. Brunner, and C. Oehr, “Plasma treatment of polymers for surface and adhesion improvement,” Nuclear Instruments and Methods in Physics Research, Section B, 208, 281-286, (Aug 2003).
1215. Heitz, C., “A generalized model for partial discharge processes based on a stochastic process approach,” J. Physics D: Applied Physics, 32, 1012-1023, (1999).
2678. Hejda, F., P. Solar, and J. Kousal, “Surface free energy determination by contact angle measurements - a comparison of various approaches,” in WDS '10 Proceedings, Part III, 25-30, MATFYZ Press, 2010.
1335. Hellwig, G.E.H., and A.W. Neumann, “Contact angles and wetting energies pertinent to pigment behaviour,” Farbe und Lack, 73, 823-829, (1967).
784. Helt, S., J. Evieux, Y. Baziard, V. Nassiet, and J.-A. Petit, “Characterization of acid-base properties of surfaces by contact angle titration:application to the adhesive bonding of silicon carbide,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 399-418, VSP, Dec 2000.
2626. Henry, E.B., “Determination of the surface energy for UV-curable, easy-release coatings,” Presented at RadTech 2016, May 2016.
1580. Herbert, P.A.F., and E. Bourdin, “New generation atmospheric pressure plasma technology for industrial on-line processing,” J. Coated Fabrics, 28, (1999).
1571. Herbert, T., “Atmospheric-pressure cold plasma processing technology,” in Plasma Technologies for Textiles, Shishoo, R., ed., 79-128, Woodhead Publishing, Mar 2007.
985. Herranz, M., “Coextrusion and printing problems,” Plast' 21, 49, 43-45, (Feb 1996).
158. Heusch, C., “Understanding surface tension,” Flexo, 18, 42-43, (Jul 1993).
893. Hibbard, D., “Sticky science: new polymer technology makes it easier to paint and glue plastic parts,” Modern Paints & Coatings, 91, 31, (Dec 2001).
2801. Hild, F., “Surface energy of plastics,” https://www.tstar.com/blog/bid/33845/Surface-Energy-of-Plastics, Dec 2009.
1896. Hill, J.M., E. Karbashewski, A. Lin, M. Strobel, and M.J. Walzak, “Effects of aging and washing on UV- and ozone-treated poly(ethylene terephthalate) and polypropylene,” J. Adhesion Science and Technology, 9, 1575-1591, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 273-290, VSP, May 1996).
695. Hill, M., “Flame treatment meets quality management,” in 2002 PLACE Conference Proceedings, TAPPI Press, Sep 2002.
2989. Hillborg, H., and U.W. Gedde, “Hydrophobicity recovery of polydimethylsiloxane after exposure to corona discharges,” Polymer, 39, 1991-1998, (May 1998).
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