ACCU DYNE TEST ™ Bibliography

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1795. Hybart, F.J., and T.R. White, “The surface tension of viscous polymers at high temperature,” J. Applied Polymer Science, 3, 118-121, (1960).

329. Shafrin, E.G., and W.A. Zisman, “Constitutive relations in the wetting of low energy surfaces and the theory of the retraction method of preparing monolayers,” J. Physical Chemistry, 64, 519-524, (1960).

139. Good, R.J., and L.A. Girifalco, “A theory for the estimation of surface and interfacial energies, III. Estimation of surface energies of solids from contact angle data,” J. Physical Chemistry, 64, 561-565, (1960).

2345. Berthold, G.H., A.S. Mancib, and M.B. Karelitz, “Apparatus for treating plastic materials,” U.S. Patent 2881470, Apr 1959.

1920. Allan, A.J.G., “Surface properties of polyethylene: Effect of an amphiphatic additive,” J. Colloid Science, 14, 206-221, (Apr 1959).

2321. Bernett, M.K., and W.A. Zisman, “Wetting of low energy solids by aqueous solutions of highly fluorinated acids and salts,” J. Physical Chemistry, 63, 1911-1916, (1959).

1341. Padday, J.F., “Apparatus for measuring the spreading coefficient of a liquid, on a solid surface,” J. Scientific Instrumentation, 36, (1959).

2306. Rothacker, F.N., “Method and apparatus for the treatment of plastic materials,” U.S. Patent 2864755, Dec 1958.

2344. Berthold, G.H., and A.S. Mancib, “Method of treating polyethylene sheet material,” U.S. Patent 2859480, Nov 1958.

2310. Kaghan, W.S., and D.F. Stoneback, “Electrical discharge treatment of polyethylene,” U.S. Patent 2859481, Nov 1958.

1821. Ray, B.R., J.R. Anderson, and J.J. Scholz, “Wetting of polymer surfaces I: Contact angles of liquids on starch, amylose, amylopectin, cellulose, and polyvinyl alcohol,” J. Physical Chemistry, 62, 1220-1227, (1958).

1649. Good, R.J., L.A. Girifalco, and G. Kraus, “A theory for the estimation of surface and interfacial energies, II: Application to surface thermodynamics of teflon and graphite,” J. Physical Chemistry, 62, 1418-1422, (1958).

2343. Potter, V.G., and R.F. Pierce, “Apparatus for and method of treating plastic,” U.S. Patent 2810933, Oct 1957.

2304. Rothacker, F.N., “Apparatus for the treatment of plastic materials,” U.S. Patent 2802085, Aug 1957.

1647. Good, R.J., “Surface entropy and surface orientation of polar liquids,” J. Physical Chemistry, 61, 810-812, (1957).

925. Deacon, R.F., “Wetting and the mixing of surface phases,” Transactions of the Faraday Society, 53, 1014-1019, (1957).

134. Girifalco, L.A., and R.J. Good, “A theory for the estimation of surface and interfacial energies, I. Derivation and application to interfacial tension,” J. Physical Chemistry, 61, 904-909, (1957).

306. Rossman, K., “Improvement of bonding properties of polyethylene,” J. Polymer Science, 19, 141-144, (1956).

1790. Ellison, A.H., and W.A. Zisman, “Wettability of halogenated organic solid surfaces,” J. Physical Chemistry, 58, 260-265, (1954).

1788. Ellison, A.H., and W.A. Zisman, “Wettability studies of nylon, polyethylene terephthalate and polystyrene,” J. Physical Chemistry, 58, 503-506, (1954).

1917. Ellison, A.H., H.W. Fox, and W.A. Zisman, “Wetting of fluorinated solids by hydrogen-bonding liquids,” J. Physical Chemistry, 57, 622-627, (1953).

1916. Scholberg, H.M., R.A. Guenther, and R.I. Coon, “Surface chemistry of fluorocarbons and their derivatives,” J. Physical Chemistry, 57, 923-925, (1953).

112. Fox, H.W., and W.A. Zisman, “The spreading of liquids on low energy surfaces, VI. Branched-chain monolayers, aromatic surfaces, and thin liquid films,” J. Colloid Science, 8, 194-203, (1953).

2090. Shafrin, E.G., and W.A. Zisman, “The spreading of liquids on low-energy surfaces IV: Monolayer coatings on platinum,” J. Colloid Science, 7, 166-177, (Apr 1952).

1599. Harkins, W.D., The Physical Chemistry of Surface Films, Reinhold, 1952.

1482. Good, R.J., “A thermodynamic derivation of Wenzel's modification of Young's equation for contact angle, together with a theory of hysteresis,” J. American Chemical Society, 74, 5041-5042, (1952).

111. Fox, H.W., and W.A. Zisman, “The spreading of liquids on low energy surfaces, III. Hydrocarbon surfaces,” J. Colloid Science, 7, 428-442, (1952).

110. Fox, H.W., and W.A. Zisman, “The spreading of liquids on low energy surfaces, II. Modified tetrafluoroethylene polymers,” J. Colloid Science, 7, 109-121, (1952).

104. Fowkes, F.M., and W.M. Sawyer, “Contact angles and boundary energies of a low energy solid (letter),” J. Chemical Physics, 20, 1652, (1952).

1617. Sonders, L.R., D.P. Enright, and W.A. Weyl, “Wettability, a function of the polarizability of the surface ions,” J. Applied Physics, 21, 338+, (1950).

631. Dole, M., “Surface tension measurements,” in Physical Methods in Chemical Analysis, Vol. II, Berl, W.G., ed., 305-332, 1950.

109. Fox, H.W., and W.A. Zisman, “The spreading of liquids on low energy surfaces, I. Polytetrafluoroethylene,” J. Colloid Science, 5, 514-531, (1950).

384. Wenzel, R.N., “Surface roughness and contact angle (letter),” J. Physical Chemistry, 53, 1466-1467, (1949).

2887. Shuttleworth, R., and G.J. Bailey, “The spreading of a liquid over a rough surface,” Discussions of the Faraday Society, 3, 16-22, (1948).

1789. Fox, H.W., P.W. Taylor, and W.A. Zisman, “Polyorganosiloxanes: Surface active properties,” Industrial and Engineering Chemistry, 39, 1401-1409, (1947).

2885. Pease, D.C., “The significance of the contact angle in relation to the solid surface,” J. Physical Chemisty, 49, 107-110, (1945).

1491. Derjaguin, B.V., and S.M. Levi, Film Coating Theory, Focal Press, 1943.

2890. Macdougall, G., and C. Ockrent, “Surface energy relations in liquid/solid systems 1. The adhesion of liquids to solids and a new method of determining the surface tension of liquids,” Proceedings of the Royal Society of London, 180, 151-173, (1942).

103. Fowkes, F.M., and W.D. Harkins, “The state of monolayers adsorbed at the interface solid-aqueous solution,” J. American Chemical Society, 62, 3377-3386, (1940).

209. Langmuir, I., “Overturning and anchoring of monolayers,” Science, 87, 493-500, (1938).

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