ACCU DYNE TEST ™ Bibliography

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38. Breuer, J., S. Metev, G. Sepold, et al, “Laser-induced photochemical adherence enhancement,” Applied Surface Science, 46, 336-341, (1990).

68. Cormia, R.D., “Surface Modification and Characterization of Biomaterials,” Surface Sciences, 1990.

98. Foerch, R., N.S. McIntyre, R.N.S. Sodhi, and D.H. Hunter, “Nitrogen plasma treatment of polyethylene and polystyrene in a remote plasma reactor,” J. Applied Polymer Science, 40, 1903-1915, (1990).

99. Foerch, R., N.S. McIntyre, and D.H. Hunter, “Modification of polymer surfaces by two-step plasma sensitized reactions,” J. Polymer Science Part A: Polymer Chemistry, 28, 803-809, (1990).

160. Ho, C.-P., and H. Yasuda, “Coatings and surface modification by methane plasma polymerization,” J. Applied Polymer Science, 39, 1541-1542, (1990).

170. Inoue, H., A. Matsumoto, K. Matsukawa, et al, “Surface characteristics of polydimethylsiloxane-poly(methylmethacrylate) block copolymers and their PMMA blends,” J. Applied Polymer Science, 41, 1815-1829, (1990).

176. Janczuk, B., and T. Bialopiotrowicz, “The total surface free energy and the contact angle in the case of low energetic solids,” J. Colloid and Interface Science, 140, 362-372, (1990).

189. Katoh, K., H. Fujita, and H. Sasaki, “Macroscopic wetting behavior and a method for measuring contact angles,” J. Fluids Engineering, 112, 289-295, (1990).

208. Lanauze, J.A., and D.L. Myers, “Ink adhesion on corona-treated polyethylene studied by chemical derivatization of surface functional groups,” J. Applied Polymer Science, 40, 595-611, (1990).

243. Morra, M., E. Occhiello, R. Marola, F. Garbassi, et al, “On the aging of oxygen plasma-treated polydimethylsiloxane surfaces,” J. Colloid and Interface Science, 137, 11-24, (1990).

244. Morra, M., E. Occhiello, and F. Garbassi, “Surface characterization of plasma-treated PTFE,” Surface and Interface Analysis, 16, 412-417, (1990).

245. Morra, M., E. Occhiello, L. Gilo, and F. Garbassi, “Surface dynamics vs. adhesion in oxygen plasma treated polyolefins,” J. Adhesion, 33, 77-88, (1990).

251. Murray, M.D., and B.W. Darvell, “A protocol for contact angle measurement,” J. Physics, 23, 1150-1155, (1990).

298. Poncin-Epaillard, F., B. Chevet, and J.-C. Brosse, “Functionalization of polypropylene by a microwave (433 MHz) cold plasma of carbon dioxide.Surface modification or surface degradation?,” European Polymer J., 26, 333-339, (1990).

375. Wagner, H.D., “Spreading of liquid droplets on cylindrical surfaces: accurate determination of contact angle,” J. Applied Physics, 67, 1352-1355, (1990).

401. no author cited, “Successful Corona Treating,” Solo Systems, 1990.

436. Chang, T.C., and B.Z. Jang, “Plasma treatments of carbon fibers in polymer composites,” in ANTEC 90, 1257-1260, Society of Plastics Engineers, 1990.

440. Cho, D.L., P.M. Claesson, C.-G. Golander, and K. Johansson, “Structure and surface properties of plasma polymerized acrylic acid layers,” J. Applied Polymer Science, 41, 1373-1390, (1990).

463. Gaydos, J., E. Moy, and A.W. Neumann, “Reply to 'On the existence of an equation of state for interfacial free energies' (letter),” Langmuir, 6, 888-892, (1990).

464. Gerstenberg, K.W., “Corona pretreatment to allow wetting and bonding,” Deutsch Papierwirtsch, 1, 8, (1990).

486. Inagaki, N., S. Tasaka, H. Kawai, and Y. Kimura, “Hydrophilic surface modification of polyethylene by NO-plasma treatment,” J. Adhesion Science and Technology, 4, 99-107, (1990).

522. Maden, S., L.E. McDaniels, and I.R. Harrison, “Surface modifications in polymer - metal laminates,” in ANTEC 90, 1820-1823, Society of Plastics Engineers, 1990.

632. Egitto, F.D., “Plasma etching and modification of organic polymers,” Pure and Applied Chemistry, 62, 1699-1708, (1990).

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).

854. Briggs, D., “Applications of XPS in polymer technology,” in Practical Surface Analysis, 2nd Ed., Vol. 1: Auger and X-ray Photoelectron Spectroscopy, Briggs, D., and M.P. Seah, eds., 437-484, John Wiley & Sons, 1990.

906. no author cited, “A recommended practice for evaluating the flame surface treatment of polyolefin bottles using the water dip and ink adhesion tests,” in Technical Bulletins, Rev. 2, The Plastic Bottle Institute, 1990.

1048. Nowak, S., H.P. Haerri, and L. Schlapbach, “Surface charaterisation and adhesion of plasma treated PP,” in Polymeric Materials Science & Engineering, 437-441,V62, American Chemical Society, 1990.

1296. Li, D., and A.W. Neumann, “A reformulation of the equation of state for interfacial tensions,” J. Colloid and Interface Science, 137, 304-307, (1990).

1327. Li, D., and A.W. Neumann, “Determination of line tension from the drop size dependence of contact angles,” Colloids and Surfaces, 43, 195-206, (1990).

1486. Kumar, A., and S. Hartland, “Measurement of contact angles from the shape of a drop on a vertical fiber,” J. Colloid and Interface Science, 136, 455-469, (1990).

1596. Fowkes, F.M., “Quantitative characterization of the acid-base properties of solvents, polymers and inorganic surfaces,” J. Adhesion Science and Technology, 4, 669+, (1990) (also in Acid-Base Interactions: Relevance to Adhesion Science and Technology, K.L. Mittal and H.R. Anderson Jr., eds., p. 93-116, VSP, Nov 1991).

1600. Vrbanac, M.D., and J.C. Berg, “The use of wetting measurements in the assessment of acid-base interactions at solid-liquid interfaces,” J. Adhesion Science and Technology, 4, 255+, (1990) (also in Acid-Base Interactions: Relevance to Adhesion Science and Technology, K.L. Mittal and H.R. Anderson Jr., eds., p. 67-78, VSP, Nov 1991).

1660. van Oss, C.J., R.F. Giese, and R.J. Good, “Re-evaluation of the surface tension components and parameters of polyacetylene from contact angles of liquids,” Langmuir, 6, 1711-1713, (1990).

1697. Costanzo, P.M., R.F. Giese, and C.J. van Oss, “Determination of the acid-base characteristics of clay mineral surfaces by contact angle measurements - Implication for the adsorption of organic solutes from aqueous media,” J. Adhesion Science and Technology, 4, 267-275, (1990).

1741. Biederman, H., and Y. Osada, “Plasma chemistry of polymers,” Advances in Polymer Science, 95, 57-109, (1990).

1889. Gatenholm, P., C. Bonnerup, and E. Wallstrom, “Wetting and adhesion of water-borne printing inks on surface-modified polyolefins,” J. Adhesion Science and Technology, 4, 817-827, (1990).

1910. Oh, T.S., L.P. Buchwalter, and J. Kim, “Adhesion of polyimides to ceramic substrates: Role of acid-base interactions,” J. Adhesion Science and Technology, 4, 303-317, (1990) (also in Acid-Base Interactions: Relevance to Adhesion Science and Technology, K.L. Mittal and H.R. Anderson Jr., eds., p. 287-302, VSP, Nov 1991).

2088. Onyiriuka, E.C., L.S. Hersh, and W. Hertl, “Surface modification of polystyrene by gamma-radiation,” Applied Spectroscopy, 44, 808-811, (1990).

2216. Yang, W., and N. Sung, “Adhesion promotion through plasma treatment in thermoplastic/rubber systems,” in Proceedings of the ACS Division of Polymer Materials: Science and Engineering, Vol. 62, 0, American Chemical Society, 1990.

2283. Spelt, J.K., “Solid surface tension: The use of thermodynamic models to verify its determination from contact angles,” Colloids and Surfaces, 43, 389-411, (1990).

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