ACCU DYNE TEST ™ Bibliography
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1464. Zhong, W., “Surface tension, wetting and wicking,” in Thermal and Moisture Transport in Fibrous Materials, Pan, N., and P. Gibson, eds., 136-155, Woodhead Publishing, Nov 2006.
1264. Zhu, B., H. Iwata, I. Hirata, and Y. Ikada, “Hydrophilic modification of a polyimide film surface,” J. Adhesion Science and Technology, 14, 351-361, (2000).
400. Zisman, W.A., “Adhesion,” Industrial and Engineering Chemistry, 55, 18-38, (1963).
607. Zisman, W.A., “Surface energetics of wetting, spreading, and adhesion,” J. Coatings Technology, 44, (1972).
660. Zisman, W.A., “Constitutional effects on adhesion and cohesion,” in Adhesion and Cohesion, Weiss, P., ed., 176+, Elsevier, 1962.
1601. Zisman, W.A., “Relation of the equilibrium contact angle to liquid and solid constitution,” in Contact Angle, Wettability and Adhesion, Fowkes, F.M., and W.A. Zisman, eds., 1+, American Chemical Society, 1964.
2337. Zisman, W.A., “Surface properties of plastics,” Record of Chemical Progree, 26, 23+, (1965).
1401. Zito, W.F., “Electrostatic treatment of films: Watts the answer?,” in 1980 Paper Synthetics Conference Proceedings, 181, TAPPI Press, 1980.
608. Zorll, U., “Significance and problem of the critical surface tension,” Adhesion, 18, 262+, (1974).
1120. d'Agostino, R., P. Favia, C. Oehr, and M.R. Wertheimer, Plasma Processes and Polymers, Wiley-VCH, 2005.
1579. d'Agostino, R., P. Favia, C. Oehr, and M.R. Wertheimer, “Low-temperature plasma processing of materials: past, present, and future,” Plasma Processes and Polymers, 2, 7-15, (2005).
Plasma, considered as the fourth state of matter, is playing a key role as a modern discipline. Plasma processing is drawing attention from various technology sectors such as microelectronics, automotive, and surface modifications of polymers. Some examples of additional new applications include functional coatings for architectural glass, mercury-free lamps, plasma-treated packaging for food, beverage and pharmaceutical industries, as well as nanomaterials. With the emergence of all new technological applications from basic research in academic, industrial, or government laboratories, plasma is set to have a brilliant future.
1408. d'Agostino, R., et al, “Plasma treatment of PET for improving Al-adhesion,” in 41st Annual Technical Conference Proceedings, Society of Vacuum Coaters, 1998.
1055. da Silva, W., A. Entenberg, B. Kahn, T. Debies, and G.A. Takacs, “Adhesion of copper to teflon surfaces modified by vacuum UV photo-oxidation downstream from Ar microwave plasma,” in PMSE Reprints, American Chemical Society, Mar 2004.
74. de Gennes, P.-G., “Wetting: statics and dynamics,” Review of Modern Physics, 57(3), P1, 827-863, (1985).
75. de Gennes, P.-G., “The dynamics of wetting,” in Fundamentals of Adhesion, Lee, L.-H., ed., 173-179, Plenum Press, Feb 1991.
1086. de Gennes, P.-G., F. Brochard-Wyart, and D. Quere, “Capillarity:Deformable interfaces,” in Capillarity and Wetting Phenomena: Drops, Bubbles, Pearls, Waves, 1-30, Springer-Verlag, Nov 2003.
1087. de Gennes, P.-G., F. Brochard-Wyart, and D. Quere, “Hysteresis and elasticity of triple lines,” in Capillarity and Wetting Phenomena: Drops, Bubbles, Pearls, Waves, 69-84, Springer-Verlag, Nov 2003.
1088. de Gennes, P.-G., F. Brochard-Wyart, and D. Quere, “Wetting and long-range forces,” in Capillarity and Wetting Phenomena: Drops, Bubbles, Pearls, Waves, 87-104, Springer-Verlag, Nov 2003.
2293. de Gennes, P.G., “Wetting: Statics and dynamics,” Reviews of Modern Physics, 57, 827-863, (1985).
856. de Mendez, M., J.C. Boeda, G. Legeay, J.C. Brosse, and P. Simon, “Low temperature plasma modification of polysiloxanes,” in Advances in Low-Temperature Plasma Chemistry, Technology, Applications, Boenig, H.V., ed., 229-242, Technomic, 1988.
2032. du Toit, F.J., and R.D. Sanderson, “Surface fluorination of polypropylene, I: Characterisation of surface properties,” J. Fluorine Chemistry, 98, 107-114, (Sep 1999).
2033. du Toit, F.J., and R.D. Sanderson, “Surface fluorination of polypropylene, II: Adhesion properties,” J. Fluorine Chemistry, 98, 115-119, (Sep 1999).
401. no author cited, “Successful Corona Treating,” Solo Systems, 1990.
402. no author cited, “ASTM D2578-17: Standard test method for wetting tension of polyethylene and polypropylene films,” ASTM, 2017.
403. no author cited, “ASTM D5946: Standard test method for using water contact angle measurements,” ASTM, 1999.
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.
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).
408. no author cited, “Surface treatment improves polyethylene barrier properties,” Package Engineering, 26, 64-66, (Nov 1981).
409. no author cited, “On the surface,” Package Printing, 42, 34-35, (Jul 1995).
410. no author cited, “Ceramic rollers boost corona-treating uptime,” Plastics Technology, 42, 92, (Feb 1996).
411. no author cited, “Technique for seeing polymer surface is validated,” Chemical & Engineering News, 78, 45, (Nov 2000).
610. no author cited, “Corona treatment tackles tough jobs,” Modern Plastics Intl., 17, 56-58, (Jan 1987).
611. no author cited, “Corona treatment improves ink adhesion,” Plastics Engineering, 43, 13, (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).
613. no author cited, “Ceramic coat raises corona efficiency, lowers cost,” Converting World, 6, (Mar 1991).
614. no author cited, “Skip-treating technology fixes seal-failure problem,” Paper Film & Foil Converter, 65, 50, (Mar 1991).
615. no author cited, “Non-flaming: a good way to treat apolar surfaces,” Plastics and Rubber International, 1421, 6, (Feb 1992).
616. no author cited, “Plasma treated plastics parts have improved paintability, bondability,” Modern Plastics Intl., 19, 4-6, (Mar 1989).
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