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ACCU DYNE TEST ™ Bibliography

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779. Kwok, D.Y., and A.W. Neumann, “Contact angle measurements and contact angle interpretation: Relevance to the thermodynamics of adhesion,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 91-166, VSP, Dec 2000.

780. Good, R.J., “On the acid/base theory of contact angles,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 167-172, VSP, Dec 2000.

781. van Oss, C.J., “Acid-base interactions as the driving force for both hydrophobic attraction and hydrophilic repulsion,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 173-180, VSP, Dec 2000.

782. Chehimi, M.M., M. Delamar, J. Kurdi, F. Arefi-Khonsari, V. Lavaste, and J.F. Wat, “Charaterisation of acid-base properties of polymer surfaces by XPS,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 275-298, VSP, Dec 2000.

783. Etzler, F.M., J. Simmons, N. Ladyzhynsky, V. Thomas, and S. Maru, “Assesment of acid-base character of polymer surfaces from contact angle and other surface chemical data,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 385-394, VSP, Dec 2000.

784. Helt, S., J. Evieux, Y. Baziard, V. Nassiet, and J.-A. Petit, “Characterization of acid-base properties of surfaces by contact angle titration:application to the adhesive bonding of silicon carbide,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 399-418, VSP, Dec 2000.

785. Morra, M, and C. Cassinelli, “Acid-base characteristics of polymer surfaces: relevance to bioadhesion,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 497-512, VSP, Dec 2000.

786. Netravali, A.N., and Q. Song, “Laser surface modification of ultra-high-strength polyethylene fibers: correlation between acid-base interactions and adhesion to epoxies,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 525-538, VSP, Dec 2000.

787. Allred, R.A., and S.P. Wesson, “Effects of acid base interactions on carbon/polycarbonate composite interfacial adhesion,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 551-580, VSP, Dec 2000.

788. Kamath, Y.K., and C.J. Dansizer, “Acid-base interactions in the measurements of surface energies of textile fibers and finish liquids,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Vol. 2, Mittal, K.L., ed., 593-600, VSP, Dec 2000.

789. Charbonnier, M., M. Romand, M. Alami, and T.M. Duc, “Surface modification of poly(tetrafluoroethylene) in RF glow-discharge (H2,He,Ar,O2,N2,NH3) plasmas.XPS characterization,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 3-28, VSP, Dec 2000.

790. Charbonnier, M., M. Romand, and M. Alami, “Plasma surface modification of poly(tetrafluoroethylene) substrates: a route for electroless plating,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 29-44, VSP, Dec 2000.

791. Kuhn, G., A. Ghode, St. Weidner, I. Retzko, W.E.S. Unger, and J.F. Friedrich, “Chemically well-defined surface functionalization of polyethylene and polypropylene by pulsed plasma modification followed by grafting of molecules,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 45-64, VSP, Dec 2000.

792. Yializis, A., S.A. Pirzada and W. Decker, “A novel atmospheric plasma system for polymer surface treatment,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 65-76, VSP, Dec 2000.

793. Hsieh, M.C., J.P. Youngblood, W. Chen, and T.J. McCarthy, “Ultrahydrophobic polymeric surfaces prepared using plasma chemistry,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 77-90, VSP, Dec 2000.

794. Ortiz-Magan, A.B., M. Pastor-Blas, T.P. Ferrandiz-Gomez, and J.M. Martin-Martine, “Treatment of vulcanized SBR rubber with low-pressure gas plasma using oxygen-nitrogen mixtures,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 91-120, VSP, Dec 2000.

795. Larsson, A., and A. Ocklind, “Plasma treated polycarbonate as substrate for culture of adherent mammalian cells,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 121-136, VSP, Dec 2000.

796. Kopf, H., C. Seidel, B. Gotsmann, H. Fuchs, and K. Reihs, “An XPS and SFM study of plasma treatment and A1 metallisation of polycarbonate: a comparison of SF6 and Ar plasma treatments,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 173-182, VSP, Dec 2000.

797. Tatoulian, M., F. Cavalli, G. Lorang, J. Amouroux, and F. Arefi-Khonsari, “Copper metallization of plasma-treated fluorinated polymers: study of the interface and adhesion measurements,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 183-198, VSP, Dec 2000.

798. van Ooij, W.J., S. Luo, E. Mader, and K. Mai, “Improved rubber adhesion to textile tire cords by deposition of plasma-polymerized films,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 225-242, VSP, Dec 2000.

799. Netravali, A.N., Q. Song, J.M. Caceres, M.O. Thompson, and T.J. Renk, “Excimer laser and high power ion beam surface modification of ulrta-high strength polyethylene fibers for improved adhesion to epoxy resins,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 355-376, VSP, Dec 2000.

800. Nie, H.-Y., M.J. Walzak, and N.S. McIntyre, “Atomic force microscopy study of UV/ozone treated polypropylene films,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 377-392, VSP, Dec 2000.

801. Cho, J.-S., Y.-W. Beag, K.-H. Kim, S. Han, J. Cho, and S.-K. Koh, “High surface energy polymers obtained by bombardment with a keV ion beam in a reactive gas environment,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 393-408, VSP, Dec 2000.

802. Gotoh, K., M. Tagawa, N. Ohmae, and M. Tagawa, “Wettability of polyimide films modified by exposure to atomic oxygen,” in Polymer Surface Modification: Relevance to Adhesion, Vol. 2, Mittal, K.L., ed., 445-460, VSP, Dec 2000.

806. Shi, M.K., A. Selmani, L. Martinu, E. Sacher, M.R. Wertheimer, and A. Yelon, “Fluoropolymer surface modification for enhanced evaporating,” in Polymer Surface Modification: Relevance to Adhesion, Mittal, K.L., ed., 73-86, VSP, May 1996.

808. Ringenbach, A., Y. Jugnet, and T.M. Duc, “Interfacial chemistry in Al and Cu metallization of untreated and plasma treated polyethylene and polyethylene terephthalate,” in Polymer Surface Modification: Relevance to Adhesion, Mittal, K.L., ed., 101-120, VSP, May 1996.

811. Zhang, J.-Y., H. Esrom, U. Kogelschatz, and G. Emig, “Modifications of polymers with UV excimer radiation from lasers,” in Polymer Surface Modification: Relevance to Adhesion, Mittal, K.L., ed., 153-184, VSP, May 1996.

812. Murahara, M., and K. Toyoda, “Excimer laser-induced photochemical modification and adhesion improvement of a fluororesin surface,” in Polymer Surface Modification: Relevance to Adhesion, Mittal, K.L., ed., 213-222, VSP, May 1996.

818. Lunkwitz, K., W. Burger, U. Lappan, H.-J. Brink, and A. Ferse, “Surface modification of fluoropolymers,” in Polymer Surface Modification: Relevance to Adhesion, Mittal, K.L., ed., 349-362, VSP, May 1996.

819. Lee, K.-W., “Modification of polyimide morphology: relationship between modification depth and adhesion strength,” in Polymer Surface Modification: Relevance to Adhesion, Mittal, K.L., ed., 363-378, VSP, May 1996.

825. Liston, E.M., L. Martinu, and M.R. Wertheimer, “Plasma surface modification of polymers for improved adhesion: a critical review,” in Plasma Surface Modification of Polymers: Relevance to Adhesion, Strobel, M., C.S. Lyons, and K.L. Mittal, eds., 3-42, VSP, Oct 1994.

826. Gerenser, L.J., “XPS studies of in situ plasma-modified polymer surfaces,” in Plasma Surface Modification of Polymers: Relevance to Adhesion, Strobel, M., C.S. Lyons, and K.L. Mittal, eds., 43-64, VSP, Oct 1994.

827. Clouet, F., M.K. Shi, R. Prat, Y. Holl, P. Marie, et al, “Multitechnique study of hexatriacontane surfaces modified by argon and oxygen RF plasmas: effect of treatment time and funtionalization, and comparison with HDPE,” in Plasma Surface Modification of Polymers: Relevance to Adhesion, Strobel, M., C.S. Lyons, and K.L. Mittal, eds., 65-98, VSP, Oct 1994.

828. Foerch, R., G. Kill, and M.J. Walzak, “Plasma surface modification of polyethylene: short-term vs. long-term plasma treatment,” in Plasma Surface Modification of Polymers: Relevance to Adhesion, Strobel, M., C.S. Lyons, and K.L. Mittal, eds., 99-112, VSP, Oct 1994.

833. Morra, M., E. Occhiello, and F. Garbassi, “Chemical reactions on plasma-treated polyethylene surfaces,” in Plasma Surface Modification of Polymers: Relevance to Adhesion, Strobel, M., C.S. Lyons, and K.L. Mittal, eds., 183-196, VSP, Oct 1994.

835. Collaud, M., S. Nowak, O.M. Kuttel, and L. Schlapbach, “Enhancement of the sticking coefficient of Mg on polypropylene by in situ ECR-RF Ar and N2 plasma treatments,” in Plasma Surface Modification of Polymers: Relevance to Adhesion, Strobel, M., C.S. Lyons, and K.L. Mittal, eds., 255-274, VSP, Oct 1994.

839. Berger, E.J., “A method of determining the surface acidity of polymeric and metallic materials and its application to lap shear adhesion,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Mittal, K.L., and H.R. Anderson Jr., eds., 207-228, VSP, Nov 1991.

841. Dwight, D.W., F.M. Fowkes. D.A. Cole, M.J. Kulp, et al, “Acid-base interfaces in fiber-reinforced polymer composites,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Mittal, K.L., H.R. Anderson Jr., eds., 243-256, VSP, Nov 1991.

843. Finlayson, M.F., and B.A. Shah, “The influence of surface acidity and basicity on adhesion of poly(ethylene-co-acrylic acid) to aluminum,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Mittal, K.L., and H.R. Anderson Jr., eds., 303-312, VSP, Nov 1991.

844. Tiburcio, A.C., and J.A. Manson, “The effects of filler/polymer acid-base interactions in model coating systems,” in Acid-Base Interactions: Relevance to Adhesion Science and Technology, Mittal, K.L., and H.R. Anderson Jr., eds., 313-328, VSP, Nov 1991.

 

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