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ACCU DYNE TEST ™ Bibliography

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1282. Chappell, P.J.C., J.R. Brown, G.A. George, and H.A. Willis, “Surface modification of extended chain polyethylene fibres to improve adhesion to epoxy and unsaturated polyester resins,” Surface and Interface Analysis, 17, 143-150, (Mar 1991).

1934. Charbonnier, M., M. Romand, H. Esrom, and R Seebock, “Functionalization of polymer surfaces using excimer VUV systems and silent discharges: Application to electroless metallization,” J. Adhesion, 75, 381-404, (May 2001).

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.

1200. Charbonnier, M., and M. Romand, “Polymer pretreatments for enhanced adhesion of metals deposited by the electroless process,” Intl. J. Adhesion and Adhesives, 23, 277-285, (2003).

1201. Chattopadhyay, S., R.N. Ghosh, T.K. Chaki, and A.K. Bhowmick, “Surface analysis and printability studies on electron beam-irradiated thermoplastic elastomeric films from LDPE and EVA blends,” J. Adhesion Science and Technology, 15, 303-320, (2001).

55. Chaudhury, M.K., and G.M. Whitesides, “Correlation between surface free energy and surface constitution,” Science, 255, 1230-1232, (Mar 1992).

56. Cheatham, C.M., J.L. Cooper, and M.H. Hansen, “Surface characterization of LDPE extrusion coatings after flame and corona treatments,” in 1993 Polymers, Laminations and Coatings Conference Proceedings, 321-328, TAPPI Press, Aug 1993.

57. Cheever, G.D., “Evaluation of heterogeneous surfaces by contact angle distributions,” J. Coatings Technology, 58, 37-42, (Jan 1986).

734. Chehimi, M.M., “Harnessing acid-base interactions to improve adhesion,” in Adhesion Promotion Techniques: Technological Applications, Mittal, K.L., and A. Pizzi, eds., 27-82, Marcel Dekker, Feb 1999.

903. Chehimi, M.M., A. Azioune, and E. Cabet-Deliry, “Acid-base interactions: Relevance to adhesion and adhesive bonding,” in Handbook of Adhesive Technology, 2nd Ed., Pizzi, A., and K.L. Mittal, eds., 95-144, Marcel Dekker, Aug 2003.

1479. Chehimi, M.M., E. Cabet-Deliry, A. Azioune, and M.L. Abel, “Characterization of acid-base properties of polymers and other materials: Relevance to adhesion science and technology,” Macromolecular Symposia, 178, 169-181, (2002).

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.

58. Chen, B.-L., “Surface properties of corona treated polyethylene films containing N-(2-hydroxyethyl) erucamide as slip agent for enhanced adhesion of aqueous ink,” TAPPI J., 81, 185-189, (Aug 1998).

1001. Chen, B.L., “Slip agents for polyolefin films printed with water-based inks,” in Polyolefins XI, 705-712, Society of Plastics Engineers, 1999.

803. Chen, F., and W.V. Chang, “Applicability study of a new acid base model in polypeptides and polyamides,” Langmuir, 7, 2401-2404, (Oct 1991).

59. Chen, G.-F., “Double-edged sword: Adhesion to polyolefin surfaces represents both technical and practical challenges,” Adhesives Age, 42, 29-32, (Oct 1999).

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).

437. Chen, J., and H.L. Ren, “Research of instable interface mechanism in coextrusion,” in ANTEC 89, 206-211, Society of Plastics Engineers, 1989.

1202. Chen, J., and J.H. Davidson, “Electron density and energy distributions in the positive DC corona: Interpretation for corona-enhanced chemical reactions,” Plasma Chemistry and Plasma Processing, 22, 199-224, (Jun 2002).

1272. Chen, J., and J.H. Davidson, “Ozone production in the negative DC corona: The dependence of discharge polarity,” Plasma Chemistry and Plasma Processing, 23, 501-518, (Sep 2003).

2042. Chen, J.-R., X.-Y. Wang, and T. Wakida, “Wettability of poly(ethylene terephthalate) film treated with low-temperature plasma and their surface analysis by ESCA,” J. Applied Polymer Science, 72, 1327-1333, (Jun 1999).

2043. Chen, J.-R., and T. Wakida, “Studies on the surface free energy and surface structure of PTFE film treated with low temperature plasma,” J. Applied Polymer Science, 63, 1733-1739, (Mar 1997).

1765. Chen, J.S., Z. Sun, P.S. Guo, Z.B. Zhang, D.Z. Zhu, and H.J. Xu, “Effect of ion implantation on surface energy of ultrahigh molecular weight polyethylene,” J. Applied Physics, 93, 5103-5108, (2003).

438. Chen, K.S., Y. Uyama, and Y. Ikada, “Adhesive-free adhesion of grafted surfaces with different wettabilities,” J. Adhesion Science and Technology, 6, 1023-1035, (1992).

762. Chen, P., D.Y. Kwok, R.M. Prokop, O.I. del Rio, S.S. Susnar, and A.W. Neumann, “Axisymmetric drop shape analysis(ADSA) and its applications,” in Drops and Bubbles in Interfacial Research, Mobius, D., and R. Miller, eds., 61-138, Elsevier, Jun 1998.

1188. Chen, Q., “Investigation of corona charge stability mechanisms in polytetrafluoroethylene (PTFE) teflon films after plasma treatment,” J. Electrostatics, 59, 3-13, (Jul 2003).

1203. Chen, Q., “Negative charge corona charge stability in plasma treated polytetrafluoroethylene teflon films,” J. Physics D: Applied Physics, 37, 715-720, (Mar 2004).

In recent work, we found that the stability of the negative corona charge in radio frequency plasma treated polytetrafluoroethylene (PTFE) films (18 µm thickness) strongly depends on the plasma sources, the exposure time and the condition of the film in the plasma, i.e. the film orientation on the holder and whether the film is one-sided metallized or non-metallized, as well as the film side for corona charged. Using Fourier transform infrared spectroscopy and x-ray photoelectron spectroscopy, we conclude that two factors affect the negative charge stability: oxide formed on the surface and positive charges trapped in the film. The oxides serve to retain the negative corona charges and the plasma-generated positive charges recombine with the negative corona charges and cause the corona charge discharge after heating.

1524. Chen, Q., “PTFE electret negative charge stability after RF plasma treatment,” J. Physics D: Applied Physics, 35, 2939-2944, (Nov 2002).

2879. Chen, R., and R. Blaik, “Plasma treatment transforms plastic parts into high-value products,” Plastics Decorating, 50-52, (Jul 2021).

740. Chen, W.-L., and K.R. Shull, “Surface modification for adhesion minimization in aqueous environments,” in Polymer Surfaces & Interfaces III, Richards, R.W., and S.K. Peace, eds., 269-284, John Wiley & Sons, Jul 1999.

60. Chen, Y.L., C.A. Helm, and J.N. Israelachvili, “Molecular mechanisms associated with adhesion and contact angle hysteresis of monolayer surfaces,” J. Physical Chemistry, 95, 10736-10747, (Dec 1991).

1003. Cheney, G., M. Benson, and D.A. Markgraf, “Statistical analysis of the effects of ozone on adhesion in the extrusion coating process,” in 1997 Polymers, Laminations and Coatings Conference Proceedings, 649-655(V2), TAPPI Press, Aug 1997.

1085. Cheng, F., S.G. Hong, and C.A. Ho, “The adhesion properties of an ozone modified thermoplastic olefin elastomer,” in Fundamentals of Adhesion and Interfaces, DeMejo, L.P., D.S. Rimai, and L.H. Sharpe, eds., 123-138, Gordon and Breach Science Publ., Dec 1999.

61. Cherry, B.W., Polymer Surfaces, Cambridge University Press, 1981.

439. Cherry, B.W., and P.B. Evely, “The interaction parameter and the strength of adhesive joints,” J. Adhesion, 22, 171-182, (1987).

675. Chibowski, E., “Contact angle hysteresis due to a film present behind the drop,” in Contact Angle, Wettability and Adhesion, Vol. 2, Mittal, K.L., ed., 265-288, VSP, Sep 2002.

1204. Chibowski, E., A. Ontiveros-Ortega, and R. Perea-Carpio, “On the interpretation of contact angle hysteresis,” J. Adhesion Science and Technology, 16, 1367-1404, (2002).

2687. Chibowski, E., L. Holysz, G.A.M. Kip, A. van Silfhout, and H.J. Busscher, “Surface free energy components of glass from ellipsometry and zeta potential measurements,” J. Colloid and Interface Science, 132, 54-61, (1989).

1881. Chibowski, E., and F. Gonzalez-Caballero, “Interpretation of contact angle hysteresis,” J. Adhesion Science and Technology, 7, 1195-1209, (1993).

 

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