ACCU DYNE TEST ™ Bibliography

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538. Morris, B., “Factors influencing adhesion in coextruded structures,” TAPPI J., 75, 107-111, (Aug 1992).

230. Markgraf, D.A., “Understanding causes can deter backside treatment,” Paper Film & Foil Converter, 66, 145-146, (Sep 1992).

564. Schwartz, J., “The importance of low dynamic surface tension in waterborne coatings,” J. Coatings Technology, 64, 65-73, (Sep 1992).

144. Good, R.J., and C.J. van Oss, “The modern theory of contact angles and the hydrogen bond components of surface energies,” in Modern Approaches to Wettability: Theory and Applications, Schrader, M.E., and G.I. Loebs, eds., 1-27, Plenum Press, Oct 1992.

315. Schoff, C.K., “Wettability phenomena of coatings,” in Modern Approaches to Wettability: Theory and Applications, Schrader, M.E., and G.I. Loeb, eds., 375-395, Plenum Press, Oct 1992.

325. Schrader, M.E., and G.I. Loeb, eds., Modern Approaches to Wettability: Theory and Applications, Plenum Press, Oct 1992.

326. Schultz, J., and M. Nardin, “Determination of the surface energy of solids by the two-liquid-phase method,” in Modern Approaches to Wettability: Theory and Applications, Schrader, M.E., and G.I. Loeb, eds., 73-100, Plenum Press, Oct 1992.

348. Spelt, J.K., D. Li, and A.W. Neumann, “The equation of state approach to interfacial tensions,” in Modern Approaches to Wettability: Theory and Applications, Schrader, M.E., and G.I. Loeb, eds., 101-142, Plenum Press, Oct 1992.

1348. Schut, J.H., “Plasma treatment: The better bond,” Plastics Technology, 38, 64-69, (Oct 1992).

2387. Thurm, S., U. Reiners, I. Schinkel, and M. Kowitz, “Process for the treatment of polyolefin films,” U.S. Patent 5152879, Oct 1992.

2083. Lee, J.H., and H.B. Lee, “Surface modification of polystyrene dishes for enhanced cell culture,” Polymer (Korea), 16, 680-686, (Nov 1992).

940. Bezigian, T., “Overview of primer technology: A variety of priming techniques exists to aid the extrusion coater in meeting today's increasingly complex requirements,” Converting, 10, 60-65, (Dec 1992).

2061. Goldblatt, R.D., L.M. Ferreiro, S.L. Nunes, et al, “Characterization of water vapor plasma-modified polyimide,” J. Applied Polymer Science, 46, 2189-2202, (Dec 1992).

34. Bonnerup, C., and P. Gatenholm, “The effect of surface energetics and molecular interdiffusion on adhesion in multicomponent polymer systems,” J. Adhesion Science and Technology, 7, 247-262, (1993) (also in Contact Angle, Wettability and Adhesion: Festschrift in Honor of Professor Robert J. Good, K.L. Mittal, ed., p. 753-768, VSP, Nov 1993).

102. Foerch, R., G. Kill, and M.J. Walzak, “Plasma surface modification of polyethylene: short-term vs. long-term plasma treatment,” J. Adhesion Science and Technology, 7, 1077-1089, (1993).

161. Hoebergen, A., Y. Uyama, T. Okada, and Y. Idada, “Graft polymerization of fluorinated monomer onto corona-treated PVA cellulose films,” J. Applied Polymer Science, 48, 1825-1829, (1993).

195. Kinbara, A., A. Kikuchi, S. Baba, and T. Abe, “Effect of plasma treatment of PTFE substrates on the adhesion characteristics of vacuum-deposited Au films,” J. Adhesion Science and Technology, 7, 457-466, (1993).

206. Kuznetsov, A.Y., V.A. Bagryansky, and A.K. Petrov, “Adhesion properties of glow-discharge plasma treated polyethylene surfaces,” J. Applied Polymer Science, 47, 1175-1184, (1993).

218. Lee, L.-H., “Roles of molecular interactions in adhesion, adsorption, contact angle, and wettability,” J. Adhesion Science and Technology, 7, 583-634, (1993) (also in Contact Angle, Wettability and Adhesion: Festschrift in Honor of Professor Robert J. Good, K.L. Mittal, ed., p. 45-96, VSP, Nov 1993).

237. Mercx, F.P.M., “Improved adhesive properties of high-modulus polyethylene structures, II. Corona grafting of acrylic acid,” Polymer, 34, 1981-1983, (1993).

246. Morra, M., E. Occhiello, and F. Garbassi, “Chemical reactions on plasma-treated polyethylene surfaces,” J. Adhesion Science and Technology, 7, 1051-1063, (1993).

272. Onyiriuka, E.C., “The effects of high-energy radiation on the surface chemistry of polystyrene: a mechanistic study,” J. Applied Polymer Science, 47, 2187-2194, (1993).

283. Papirer, E., D.Y. Wu, and J. Schultz, “Adhesion of flame-treated polyolefins to styrene butadiene rubber,” J. Adhesion Science and Technology, 7, 343-362, (1993).

308. Sakata, I., M. Morita, N. Tsurata, and K. Morita, “Activation of wood surface by corona treatment to improve adhesive bonding,” J. Applied Polymer Science, 49, 1251-1258, (1993).

418. Bataille, P., N. Belgacem, and S. Sapieha, “Properties of cellulose-polypropylene compounds subjected to corona treatment,” in ANTEC '93, 325-329, Society of Plastics Engineers, 1993.

469. Gutowski, W.S., “Novel surface treatment process for enhanced adhesion of ultra-high modulus PE fibres to epoxy resins,” Composite Interfaces, 1, 141-151, (1993).

548. Porta, G.M., D.F. Foust, et al, “Adhesion properties of glow-discharge-plasma-treated polyethylene surface,” Polymer Engineering and Science, 47, 1175-1184, (1993).

597. Whitehouse, S.L., “Advances in adhesion of thermoplastic elastomers to other substrates,” in ANTEC 93 (Volume 1), 928-932, Society of Plastics Engineers, 1993.

686. Silvain, J.F., and J.J. Ehrhardt, “An overview on metal/PET adhesion,” Thin Solid Films, 236, 230-235, (1993).

873. Springer, J., and G. Schammler, “Adhesion between plastics and metals: basics,” in Metallizing of Plastics: A Handbook of Theory and Practice, Suchentrunk, R., ed., 3-29, ASM International, 1993.

911. no author cited, “Discussion of activated gas plasma process,” Advanced Plasma Systems, Inc., 1993.

1079. Novak, I., and V. Pollak, “Modification of adhesive properties of isotactic polypropylene,” Intl. Polymer Science and Technology, 20, T/77-80, (1993).

1286. Gerenser, L.S., “XPS studies of in-situ plasma-modified polymer surfaces,” J. Adhesion Science and Technology, 7, 1019-1040, (1993).

1304. Lin, F.Y.H., D. Li, and A.W. Neumann, “Effect of surface roughness on the dependence of contact angles on drop size,” J. Colloid and Interface Science, 159, 86-95, (1993).

1369. Sabreen, S., “Surface treatments for electronic components - solutions for adhesive bonding problems,” Presented at NEPCON West, 1993.

1412. Okazaki, S., and M. Kogoma, “Development of atmospheric pressure flow discharge plasma and its application on a surface with curvature,” J. Photopolymer Science and Technology, 6, 339-342, (1993).

1448. Brewis, D.M., I. Mathieson, I. Sutherland, and R.A. Cayless, “Adhesion studies of fluoropolymers,” J. Adhesion, 41, 113-128, (1993).

1450. Kaczinski, M.B., and D.W. Dwight, “Enhancement of polymer film adhesion using acid-base interactions determined by contact angle measurements,” J. Adhesion Science and Technology, 7, 165-177, (1993) (also in Contact Angle, Wettability and Adhesion: Festschrift in Honor of Professor Robert J. Good, K.L. Mittal, ed., p. 739-751, VSP, Nov 1993).

1589. Liston, E.M., and M.R. Wertheimer, “Plasma surface modification of polymers for improved adhesion: a critical review,” J. Adhesion Science and Technology, 7, 1091-1127, (1993).

1602. Behnisch, J., A. Hollander, and H. Zimmerman, “Factors influencing the hydrophobic recovery of oxygen-plasma-treated polyethylene,” Surface and Coatings Technology, 59, 356-358, (1993).

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