ACCU DYNE TEST ™ Bibliography
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1141. Allen, K.W., “Dispersion forces,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 111-113, John Wiley & Sons, Jul 2005.
1142. Packham, D.E., “Good-Girifalco interaction parameter,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 217-219, John Wiley & Sons, Jul 2005.
1143. Briggs, D., “Hydrogen bonding,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 230-231, John Wiley & Sons, Jul 2005.
1144. Packham, D.E., “Lifshitz-van der Waals forces,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 273-274, John Wiley & Sons, Jul 2005.
1145. Briggs, D., “Plasma treatment,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 325-326, John Wiley & Sons, Jul 2005.
1146. Brewis, D.M., “Pre-treatment of polymers,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 381-383, John Wiley & Sons, Jul 2005.
1147. Brewis, D.M., “Pre-treatments of polyolefins,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 383-385, John Wiley & Sons, Jul 2005.
1148. Shanahan, M.E.R., “Surface characterization by contact angles - polymers,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 511-514, John Wiley & Sons, Jul 2005.
1149. Packham, D.E., “Surface energy,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 514-517, John Wiley & Sons, Jul 2005.
1150. Packham, D.E., “Surface energy components,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 517-520, John Wiley & Sons, Jul 2005.
1151. Shanahan, M.E.R., “Wetting and spreading,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 592-594, John Wiley & Sons, Jul 2005.
1152. Padday, J.F., “Wetting and work of adhesion,” in Handbook of Adhesion, 2nd Ed., Packham, D.E., ed., 594-597, John Wiley & Sons, Jul 2005.
1595. Padday, J.F., “Theory of surface tension,” in Surface and Colloid Science, Vol. 1, Matijevic, E., ed., John Wiley & Sons, 1969.
1718. Jaycock, M.J., and G.D. Parfitt, “The study of liquid interfaces,” in Chemistry of Interfaces, John Wiley & Sons, 1981.
2334. Hudis, M., “Plasma treatment of solid materials,” in Techniques and Applications of Plasma Chemistry, Hollahan, J.R., and A.T. Bell, eds., 113-147, John Wiley & Sons, 1974.
2064. Mesic, B., “Ways to improve the printability in flexography of PE-coated cartonboard, using 'smart' polymers and corona treatment (licentiate dissertation),” Karlstad Univ., 2004.
2582. Mesic, B., “Printability of polyethylene-coated paper and paperboard (Doctorate thesis),” Karlstad University, 2006.
2653. no author cited, “How to measure the effect of treatment,” Kasuga Denki Inc., 2008.
2654. no author cited, “Wettability (wetting tension) and watt density,” Kasuga Denki Inc., 2008.
2655. no author cited, “Configuration of a corona treater,” Kasuga Denki Inc., 2008.
2656. no author cited, “Principle of surface modification by corona/gas plasma,” Kasuga Denki Inc., 2008.
2075. W. Keiko, A. Shin'ya, M. Shuichi, T. Kiyoshi, and F. Akio, “Application of flame treatment for degreasing aluminum foil,” Keikinzoku Gakkai Taikai Koen Gaiyo, 93, 263-264, (1997).
2868. Muratov, I., R. Garapov, A Eframova, and A. Khasanov, “The effect of surface treatment of PET films on adhesive properties,” Key Engineering Materials, 869, 394-399, (Oct 2020).
In this work we studied the effect of surface treatment of PET films, which are widely used in food packaging, on the adhesion value of ink layers based on polyvinyl chloride. To give high barrier properties to packaging laminates, the films used in their structure are coated with a nanolayer of aluminum oxide (AlOx). However, these films have a disadvantage associated with the low adhesion of adhesive and ink layers to the AlOx nanolayer. To eliminate this disadvantage, aluminium oxide nanolayer is additionally coated with various polymer coatings. In this work we studied the effect of a polyacrylic coating applied on top of an AlOx layer on improving the adhesion of ink layers. For PET films used in food packaging, optical and surface properties are also important. In this regard, additionally we measured surface free energy, coefficient of friction, and optical properties of the studied PET films. We also highlight the relationship of contact angles of wetting and the work of adhesion for the printing ink with the measured adhesion of ink layers.
1767. Gavrilov, N.V., V.N. Mizgulin, R. Stinnett, and A.V. Kondyurin, “Modification of polymer films of PE, PTFE, PC, PI by pulse ion beams,” Khimicheskaya Fizika i Mesoskopiya, 1, 39-47, (1999).
861. Fracassi, F., “Architecture of RF plasma reactors,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 47-64, Kluwer Academic, Nov 1997.
862. Mataras, D.S., and D.E. Rapakoulias, “Optical and electrical diagnostics of low pressure plasmas,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 65-80, Kluwer Academic, Nov 1997.
863. Tserepi, A., J. Derouard, N. Sadeghi, and J.P. Booth, “Kinetics of radicals in fluorocarbon plasmas for treatment of polymers,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 129-148, Kluwer Academic, Nov 1997.
864. Yasuda, H.K., “Surface dynamics and plasma polymers,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 149-164, Kluwer Academic, Nov 1997.
865. Arefi-Khonsari, F., M. Tatoulian, N. Shahidzadeh, and J. Amoroux, “Study of plasma treated polymers and the stability of the surface properties,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 165-210, Kluwer Academic, Nov 1997.
866. Ratner, B.D., “Surface diagnostics of plasma-treated materials,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 211-220, Kluwer Academic, Nov 1997.
867. Kogoma, M., R. Prat, T. Suwa, A. Takeda, S. Okazaki, and T. Inomata, “Plasma modification at atmospheric pressure,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 379-394, Kluwer Academic, Nov 1997.
868. Hollander, A., J. Behnisch, and M.R. Wertheimer, “Plasma vacuum UV effects on polymers,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, F. Fracassi, eds., 411-422, Kluwer Academic, Nov 1997.
869. Wertheimer, M.R., and R. Bartnikas, “Degradation effects of plasma and corona on polymers,” in Plasma Processing of Polymers (NATO Science Series E: Applied Sciences, Vol. 346), d'Agostino, R., P. Favia, and F. Fracassi, eds., 435-452, Kluwer Academic, Nov 1997.
1050. Telo da Gama, M.M., “Theory of wetting and surface critical phenomena,” in Computer Simulations of Surfaces and Interfaces, Dunweg, B., D.P. Landau, and A.I. Milchev, eds., 239-260, Kluwer Academic, Dec 2003.
1051. Theodorou, D.N., “Polymers at surfaces and interfaces,” in Computer Simulations of Surfaces and Interfaces, Dunweg, B., D.P. Landau, and A.I. Milchev, eds., 329-422, Kluwer Academic, Dec 2003.
2991. Park, S.-J., K.-S. Cho, and S.-H. Kim, “Surface and adhesion characteristics of polyimide film treated by corona discharge,” Korean Chemical Engineering Research, 40, 613-617, (2002).
2621. Rulison, C., “Effect of temperature on the surface energy of solids - sometimes it does matter,” Kruss Application Note AN250e, Dec 2005.
3017. Rulison, C., “Two-component surface energy characterization as a predictor of wettabiltiy and dispersability,” Kruss Application Report AR213e, Jan 2000.
3019. no author cited, “Why test inks cannot tell the full truth about surface free energy,” Kruss Application Report AR272, Jun 2014.
2888. Kranias, S., “Effect of drop volume on static contact angles,” Kruss GmbH, 0.
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