ACCU DYNE TEST ™ Bibliography
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230. Markgraf, D.A., “Understanding causes can deter backside treatment,” Paper Film & Foil Converter, 66, 145-146, (Sep 1992).
294. Podhajny, R.M., “Will ink adhere to film?Here's how you can find out,” Paper Film & Foil Converter, 71, 26, (Apr 1997).
295. Podhajny, R.M., “Alternative method emerges for testing surface energy,” Paper Film & Foil Converter, 71, 26, (Jun 1997).
297. Podhajny, R.M., “Common causes of blocking in flexo and gravure printing,” Paper Film & Foil Converter, 73, 26, (Nov 1999).
339. Sherman, P.B., “Use of ozone can improve production environment,” Paper Film & Foil Converter, 68, 42-44, (Oct 1994).
349. Stobbe, B.D., “Treater operations require comparison of energy costs,” Paper Film & Foil Converter, 68, 60-61, (Nov 1994).
382. Weiss, H., “Surface energy can inhibit ink transfer on ceramic rolls,” Paper Film & Foil Converter, 68, 62, (Jan 1994).
383. Weiss, H., “Surface tension flexo condition being studied,” Paper Film & Foil Converter, 68, 10, (Apr 1994).
406. no author cited, “Ceramic roller investment offers long-term savings,” Paper Film & Foil Converter, 68, 62, (Nov 1994).
407. no author cited, “Drying, curing, treatment follow technology leads,” Paper Film & Foil Converter, 68, 24-28, (Apr 1994).
488. Ironman, R., “Corona treatment has key role for English flexible packager,” Paper Film & Foil Converter, 61, 74+, (Jun 1987).
547. Podhajny, R.M., “Water-based ink adhesion and web temperature,” Paper Film & Foil Converter, 75, 26, (Apr 2001).
596. Weiss, H., “Increasing the wettability of film and foil webs, II,” Paper Film & Foil Converter, 61, 74-78, (Jul 1987).
612. no author cited, “For rollers on high-power corona treaters: modifications defy harsh conditions,” Paper Film & Foil Converter, 65, 50, (May 1991).
614. no author cited, “Skip-treating technology fixes seal-failure problem,” Paper Film & Foil Converter, 65, 50, (Mar 1991).
916. Sprecher, T.W., “Testing corona treatments,” Paper Film & Foil Converter, 57, (Nov 1983).
919. Podhajny, R.M., “Evaluating the cure of UV flexographic inks,” Paper Film & Foil Converter, 72, 30, (Jun 1998).
920. Podhajny, R.M., “The tape adhesion test for inks is common but crucial,” Paper Film & Foil Converter, 73, 18, (Jul 1999).
1390. Podhajny, R.M., “Which ink for which substrate?,” Paper Film & Foil Converter, 79, (Apr 2005).
1391. Podhajny, R.M., “Dealing with ink adhesion on high-slip films,” Paper Film & Foil Converter, 76, (Jan 2002).
1564. no author cited, “Converter combines profit with environmental concern,” Paper Film & Foil Converter, 69, 68-70, (Jun 1995).
2193. Donberg, D., “One new treater, many new benefits,” Paper Film & Foil Converter, 75, 0, (Dec 2001).
2194. Podhajny, R.M., “Some things to remember about dynamic surface tension,” Paper Film & Foil Converter, 77, 0, (Apr 2003).
2195. Wolf, R.A., “Atmospheric plasma,” Paper Film & Foil Converter, 77, 44+, (Feb 2003).
2196. Hine, C., “Corona collaboration,” Paper Film & Foil Converter, 77, (Nov 2003).
2197. Podhajny, R.M., “Film wettability not so simple,” Paper Film & Foil Converter, 78, 0, (Apr 2004).
2198. Boyle, E., “Treat 'em right,” Paper Film & Foil Converter, 81, 0, (Jul 2007).
2572. Mikula, M., and M. Cernak, “More effective corona for prepress treatment of polymeric foils,” in Proceedings of the 4th Seminar on Graphic Arts Technology, 82-88, Pardubice, Czech Republic, 2001.
443. Colligan, J.S., W.A. Grant, and J.L. Whitton, eds., Technological Aspects of Surface Treatment and Analysis, Pergamon Press, 1984.
510. Langmuir, I., Collected Works, Pergamon Press, 1961.
1727. Novak, I., and I. Chodak, “Effect of polypropylene UV modification on adhesion to polar polymers,” Petroleum and Coal, 43, 27-28, (2001).
1728. Novak, I., and S. Florian, “Effect of short-time aging on hydrophilicity of discharge plasma pretreated biaxially oriented polypropylene,” Petroleum and Coal, 43, 29-30, (2001).
2884. Young, T., “An essay on the cohesion of fluids,” Phil Trans Royal Society of London, 95, 65-87, (1805).
951. no author cited, “Surface treatment of polyolefins for decorating and adhesive bonding,” Phillips Petroleum Co., 0.
1484. Hamaker, H.C., “The London van der Waals attraction between spherical particles,” Physica, 4, 1058-1072, (1937).
1285. Ikezaki, K., T. Ishii, and T. Miura, “Thermal influence of vacuum deposition on metallic electrodes on TSC from positively corona-charged polyethylene films,” Physica Status Solidi, 85, 615-618, (Oct 1984).
1492. Washburn, E.W., “The dynamics of capillary flow,” Physical Review, 17, 273-283, (1921).
2860. Yonemoto, Y., “Estimating critical surface tension from droplet spreading area,” Physics Letters A, 384, (April 2020).
Critical surface tension (CST) is a measure of solid surface tension and is mainly determined by measuring the contact angle of a droplet on a target solid surface. The concept of CST makes it possible to determine solid surface tension without any unprovable assumptions such as the Fowkes hypothesis. However, it requires somewhat special devices and skills for measuring the contact angle. In this work, we propose a simple method to determine the CST of a solid by measuring the droplet spreading area. This method is developed by combining the conventional CST with a simple analytical droplet model. The difference in estimated CSTs between our method and the conventional one is within 3.0%. Our method enables a quick and simple evaluation of the solid surface tension without special devices for measuring the contact angle.
366. Tirrell, M., “Polymer surface forces,” Physics Today, 40, 65-66, (Jan 1987).
2219. Hall, J.R., C.A.L. Westerdahl, and M.J. Bodnar, “Activated gas plasma surface treatment of polymers for adhesive bonding,” in Picatinny Arsenal Technology Report 4001, 0, Picatinny Arsenal, 1969.
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