ACCU DYNE TEST ™ Bibliography
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1862. Inagaki, N., S. Tasaka, and Y.W. Park, “Effects of the surface modification by remote hydrogen plasma on adhesion in the electroless copper/tetrafluoroethylene-hexafluoropropylene copolymer (FEP) system,” J. Adhesion Science and Technology, 12, 1105-1119, (1998).
1863. Duorado, F., F.M. Gama, E. Chibowski, and M. Mota, “Characterization of cellulose surface free energy,” J. Adhesion Science and Technology, 12, 1081-1090, (1998).
1864. Le, Q.T., J.J. Pireaux, R. Caudano, P. Leclere, and R. Lazzaroni, “XPS/AFM study of the PET surface modified by oxygen and carbon dioxide plasmas: Al/PET adhesion,” J. Adhesion Science and Technology, 12, 999-1023, (1998).
1865. Majumder, P.S., and A.K. Bhowmick, “Electron beam-initiated surface modification of elastomers,” J. Adhesion Science and Technology, 12, 831-856, (1998).
1866. Lee, S.-G., T.-J. Kang, and T.-H. Yoon, “Enhanced interfacial adhesion of ultra-high molecular weight polyethylene (UHMWPE) fibers by oxygen plasma treatment,” J. Adhesion Science and Technology, 12, 731-748, (1998).
1867. Lin, D.G., “Layer-by-layer modification of thermoplastic coatings to improve adhesion,” J. Adhesion Science and Technology, 11, 1563-1575, (1997).
1868. Kuusipalo, J., and A. Savolainen, “Adhesion phenomena in (co) extrusion coating of paper and paperboard,” J. Adhesion Science and Technology, 11, 1119-1135, (1997).
1869. Ghosh, I., J. Konar, and A.K. Bhowmick, “Surface properties of chemically modified polyimide films,” J. Adhesion Science and Technology, 11, 877-893, (1997).
1870. Le, Q.T., J.J. Pireaux, and R. Caudano, “XPS study of the PET film surface modified by CO2 plasma: Effects of the plasma parameters and ageing,” J. Adhesion Science and Technology, 11, 735-751, (1997).
1871. Flitsch, R., and D.-Y. Shih, “An XPS study of argon ion beam and oxygen RIE modified BPDA-PDA polyimide as related to adhesion,” J. Adhesion Science and Technology, 10, 1241-1253, (1996).
1872. Leonard, D., P. Bertrand, A. Scheuer, et al, “Time-of-flight SIMS and in-situ XPS study of O2 and O2-N2 post-discharge microwave plasma-modified high-density polyethylene and hexatriacontane surfaces,” J. Adhesion Science and Technology, 10, 1165-1197, (1996).
1873. Chen, H.H., and M.D. Ries, “Surface energy modification and characterization of a plasma-polymerized fluoropolymer,” J. Adhesion Science and Technology, 10, 495-513, (1996).
1874. Niem, P.I.F., T.L. Lau, and K.M. Kwan, “The effect of surface characteristics of polymeric materials on the strength of bonded joints,” J. Adhesion Science and Technology, 10, 361-372, (1996).
1875. Huang, Y., D.J. Gardner, M. Chen, and C.J. Biermann, “Surface energetics and acid-base character of sized and unsized paper handsheets,” J. Adhesion Science and Technology, 9, 1403-1411, (1995).
1876. Li, D., and J. Zhao, “Surface biomedical effects of plasma on polyetherurethane,” J. Adhesion Science and Technology, 9, 1249-1261, (1995).
1877. Qin, X., and W.V. Chang, “Characterization of polystyrene surface by a modified two-liquid laser contact angle,” J. Adhesion Science and Technology, 9, 823-841, (1995).
1878. Sheu, G.S., and S.S. Shyu, “Surface modification of Kevlar 149 fibers by gas plasma treatment, II: Improved interfacial adhesion to epoxy resin,” J. Adhesion Science and Technology, 8, 1027-1042, (1994).
1879. Sheu, G.S., and S.S. Shyu, “Surface modification of Kevlar 149 fibers by gas plasma treatment,” J. Adhesion Science and Technology, 8, 531-542, (1994).
1880. Onyiriuka, E.C., “Electron beam surface modification of polystyrene used for cell cultures,” J. Adhesion Science and Technology, 8, 1-9, (1994).
1881. Chibowski, E., and F. Gonzalez-Caballero, “Interpretation of contact angle hysteresis,” J. Adhesion Science and Technology, 7, 1195-1209, (1993).
1882. Wells, R.K., J.P.S. Badyal, I.W. Drummond, K.S. Robinson, and F.J. Street, “Plasma oxidation of polystyrene vs. polyethylene,” J. Adhesion Science and Technology, 7, 1129-1137, (1993) (also in Plasma Surface Modification of Polymers: Relevance to Adhesion, M. Strobel, C.S. Lyons, and K.L. Mittal, eds., p. 113-122, VSP, Oct 1994).
1883. Guezenoc, H., Y. Segui, S. Thery, and K. Asfardjani, “Adhesion characteristics of plasma-treated polypropylene to mild steel,” J. Adhesion Science and Technology, 7, 953-965, (1993).
1884. Toussaint, A.F., and P. Luner, “The wetting properties of grafted cellulose films,” J. Adhesion Science and Technology, 7, 635-548, (1993).
1885. Yao, Y., X. Liu, and Y. Zhu, “Surface modification of high-density polyethylene by plasma treatment,” J. Adhesion Science and Technology, 7, 63-75, (1993).
1886. Strohmeier, B.R., “Improving the wettability of aluminum foil with oxygen plasma treatments,” J. Adhesion Science and Technology, 6, 703-718, (1992) (also in Contact Angle, Wettability and Adhesion: Festschrift in Honor of Professor Robert J. Good, K.L. Mittal, ed., p. 453-468, VSP, Nov 1993).
1887. Inagaki, N., S. Tasaka, and H. Kawai, “Surface modification of Kevlar fiber by a combination of plasma treatment and coupling agent treatment for silicone rubber composite,” J. Adhesion Science and Technology, 6, 279-291, (1992).
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).
1891. Friedrich, J.F., L. Wigant, W. Unger, et al, “Barrier properties of plasma-modified polypropylene and polyethylene terephthalate,” J. Adhesion Science and Technology, 9, 1165-1180, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 121-136, VSP, May 1996).
1892. Friedrich, J.F., W. Unger, A. Lippitz, et al, “The improvement in adhesion of polyurethane-polypropylene composites by short-time exposure of polypropylene to low and atmospheric pressure plasmas,” J. Adhesion Science and Technology, 9, 575-598, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 49-72, VSP, May 1996).
1893. Kruse, A., G. Krueger, A. Baalman, and O.-D. Henneman, “Surface pretreatment of plastics for adhesive bonding,” J. Adhesion Science and Technology, 9, 1611-1621, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 291-302, VSP, May 1996).
1894. Murahara, M., and M. Okoshi, “Photochemical surface modification of polypropylene for adhesion enhancement by using an excimer laser,” J. Adhesion Science and Technology, 9, 1593-1599, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 223-232, VSP, May 1996).
1895. Murahara, M., and K. Toyoda, “Excimer laser-induced photochemical modification and adhesion improvement of a fluororesin surface,” J. Adhesion Science and Technology, 9, 1601-1609, (1995).
1896. Hill, J.M., E. Karbashewski, A. Lin, M. Strobel, and M.J. Walzak, “Effects of aging and washing on UV- and ozone-treated poly(ethylene terephthalate) and polypropylene,” J. Adhesion Science and Technology, 9, 1575-1591, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 273-290, VSP, May 1996).
1897. Walzak, M.J., S. Flynn, R. Foerch, et al, “UV and ozone treatment of polypropylene and poly(ethylene terephthalate),” J. Adhesion Science and Technology, 9, 1229-1248, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 253-272, VSP, May 1996).
1898. Grundke, K., H.-J. Jacobasch, F. Simon, and S.T. Schneider, “Physico-chemical properties of surface-modified polymers,” J. Adhesion Science and Technology, 9, 327-350, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 431-454, VSP, May 1996).
1899. Greenwood, O.D., R.D. Boyd, J. Hopkins, and J.P.S. Badyal, “Atmospheric silent discharge versus low-pressure plasma treatment of polyethylene, polypropylene, polyisobutylene, and polystyrene,” J. Adhesion Science and Technology, 9, 311-326, (1995) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 17-32, VSP, May 1996).
1900. Lunkwitz, K., W. Burger, U. Lappan, H.-J. Brink, and A. Ferse, “Surface modification of fluoropolymers,” J. Adhesion Science and Technology, 9, 297-310, (1995).
1901. Shanahan, M.E.R., and J.M. Di Meglio, “Wetting hysteresis: Effects due to shadowing,” J. Adhesion Science and Technology, 8, 1371-1380, (1994) (also in Fundamentals of Adhesion and Interfaces, D.S. Rimai, L.P. DeMejo, and K.L. Mittal, eds., p. 225-234, VSP, Dec 1995).
1903. Zhang, J.-Y., H. Esrom, U. Kogelschatz, and G. Emig, “Modification of polymers with UV excimer radiation from lasers,” J. Adhesion Science and Technology, 8, 1179-1210, (1994).
1904. Collaud, M., P. Groening, S. Nowak, and L. Schlapbach, “Plasma treatment of polymers: The effect of the plasma parameters on the chemical, physical, and morphological states of the polymer surface and on the metal-polymer surface interface,” J. Adhesion Science and Technology, 8, 1115-1127, (1994) (also in Polymer Surface Modification: Relevance to Adhesion, K.L. Mittal, ed., p. 87-100, VSP, May 1996).
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