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ACCU DYNE TEST ™ Bibliography

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total 2949 entries
showing result page 54 of 74, ordered by “Author”.

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309. Sanchez-Rubio, M., J.R. Castellanos-Ortega, and J.E. Puig, “An analytical balance as tensiometer and densimeter,” J. Chemical Education, 68, 158-160, (1991).

555. Sanchez-Valdes, S., et al, “Characterization of LLDPE-LLDPEgMA blends by contact angle and FTIR-ATR,” in ANTEC 97, Society of Plastics Engineers, Apr 1997.

2018. Sanchis, M.R., O. Calvo, O. Fenollar, D. Garcia, and R. Balart, “Surface modification of a polyurethane film by low pressure glow discharge oxygen plasma treatment,” J. Applied Polymer Science, 105, 1077-1085, (2007).

2089. Sanchis, M.R., O. Calvo, O. Fenollar, D. Garcia, and R. Balart, “Characterization of the surface changes and the aging effects of low-pressure nitrogen plasma treatment in a polyurethane film,” Polymer Testing, 27, 75-83, (Feb 2008).

2062. Sanchis, M.R., V. Blanes, M. Blanes, D. Garcia, and R. Balart, “Surface modification of low density polyethylene (LDPE) film by low pressure O2 plasma treatment,” European Polymer J., 42, 1558-1568, (Jul 2006).

816. Sanchis, R.M., O. Calvo, L. Sanchez, D. Garcia, and R. Balart, “Enhancement of wettability in low density polyethylene films using low pressure glow discharge N2 plasma,” J. Polymer Science Part B: Polymer Physics, 45, 2390-2399, (2007).

1633. Sapieha, S., J. Cerny, J.E. Klemberg-Sapieha, and L. Martinu, “Corona versus low pressure plasma treatment: Effect on surface properties and adhesion of polymers,” J. Adhesion, 42, 91, (1993).

556. Sarabia, A., “Plasma surface treatment of poly(phenyl sulfide) and poly(etheretherketone) prior to adhesive bonding (MS thesis),” MIT, 1987.

1130. Sardella, E., R. Gristina, G.S. Senesi, R. d'Agostino, and P. Favia, “Plasma-aided micropatterning of polystyrene substrates for driving cell adhesion and spreading,” in Plasma Processes and Polymers, d'Agostino, R., P. Favia, C. Oehr, and M.R. Wertheimer, eds., 373-388, Wiley-VCH, 2005.

2527. Sarmadi, A.M., T,.H. Ying, and F. Denes, “HMDSO-plasma modification of polypropylene fibers,” European Polymer J., 31, 847-857, (Sep 1995).

310. Sarmadi, M., and F. Denes, “Surface modification of polymers under cold plasma conditions,” TAPPI J., 79, 189-204, (Aug 1996).

2528. Sarra-Bournet, C., G. Ayotte, S. Turgeon, F. Massines, and G. Laroche, “Effects of chemical composition and the addition of H2 in a N2 atmospheric pressure dielectric barrier discharge on polymer surface functionalization,” Langmuir, 25, 9432-9440, (2009).

2276. Sarra-Bournet, C., S. Turgeon, D. Mantovani, and G. Laroche, “Comparison of atmospheric-pressure plasma versus low-pressure RF plasma for surface functionalization of PTFE for biomedical applications,” Plasma Processes and Polymers, 3, 506-515, (Aug 2006).

2558. Sarra-Bournet, C., S. Turgeon, D. Mantovani, and G. Laroche, “A study of atmospheric pressure plasma discharges for surface functionalization of PTFE used in biomedical applications,” J. Physics D: Applied Physics, 39, 3461-3469, (2006).

1837. Sauer, B.B., and N.V. Dipaolo, “Surface tension and dynamic wetting on polymers using the Wilhelmy method: Applications to high molecular weights and elevated temperatures,” J. Colloid and Interface Science, 144, 527-537, (Jul 1991).

311. Savolainen, A., J. Kuusipalo, and H. Karhuketo, “Extrusion coating: corona after-treatment of LDPE coating,” TAPPI J., 73, 133-139, (Jul 1990).

557. Savolainen, A., J. Kuusipalo, and H. Karhuketo, “Optimization of corona and flame pretreatment in multilayer coating,” in 1991 Extrusion Coating Short Course (Dusselfdorf), 333-340, TAPPI Press, 1991.

312. Sayka, A., and J.G. Eberhart, “The effect of plasma treatment on the wettability of substrate materials,” Solid State Technology, 32, 69-70, (May 1989).

2718. Schafer, J., T. Hofmann, J. Holtmannspotter, M. Frauenhofer, J. von Czarnecki, and H.-J. Gudladt, “Atmospheric-pressure plasma treatment of polyamide 6 composites for bonding with polyurethane,” J. Adhesion Science and Technology, 29, 1807-1819, (2015).

1281. Schleising, E., “Corona discharge treatment,” FlexoTech, 13, 26, (1997).

314. Schmidt, J.J., J.A. Gardella Jr., J.H. Magill, and R.L. Chin, “Surface spectroscopic studies of polymer surfaces and interfaces, II. Poly(tetramethyl-P-silphenylenesiloxane/poly(dimethylsiloxane) block copolymers,” Polymer, 28, 1462-1466, (1987).

313. Schmidt, J.J., J.A. Gardella, Jr., and L. Salvati Jr., “Surface studies of polymer blends, II. An ESCA and IR study of poly(methylmethacrylate)/poly(vinyl chloride) homopolymer blends,” Macromolecules, 22, 4489-4495, (1989).

315. Schoff, C.K., “Wettability phenomena of coatings,” in Modern Approaches to Wettability: Theory and Applications, Schrader, M.E., and G.I. Loeb, eds., 375-395, Plenum Press, Oct 1992.

1116. Schoff, C.K., “Coatings clinic: Wetting and wettability,” JCT CoatingsTech, 1, 108, (Oct 2004).

1167. Schoff, C.K., “Coatings clinic: Surface tension and surface energy,” JCT CoatingsTech, 3, 72, (Feb 2006).

2154. Schoff, C.K., “Coatings clinic: Interfaces and migration,” JCT CoatingsTech, 6, 48, (May 2009).

2646. Schoff, C.K., “Application defects,” CoatingsTech, 13, 32-39, (Apr 2016).

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).

316. Schonhorn, H., “Theoretical relationship between surface tension and cohesive energy density,” J. Chemical Physics, 43, 2041-2043, (1965).

321. Schonhorn, H., “Heterogeneous nucleation of polymer melts on high-energy substrates, II. Effect of substrate on morphology and wettability,” Macromolecules, 1, 145-151, (1968).

917. Schonhorn, H., “Surface modification of polymers for adhesive bonding,” in Polymer Surfaces, Clark, D.T., and W.J. Feast, eds., 213-233, John Wiley & Sons, 1978.

1835. Schonhorn, H., “Dependence of contact angles on temperature: Polar liquids vs. polypropylene,” J. Physical Chemistry, 70, 4086-4087, (Dec 1966).

1841. Schonhorn, H., “Dependence of contact angles on temperature: Polar liquids on polyethylene,” Nature, 210, 896-897, (1966).

685. Schonhorn, H., F.W. Ryan, and R.H. Hansen, “Surface treatment of polypropylene for adhesive bonding,” J. Adhesion, 2, 93-99, (Apr 1970).

320. Schonhorn, H., and F.W. Ryan, “Effects of morphology in the surface region of polymers on adhesion and adhesive joint strength,” J. Polymer Science Part B: Polymer Physics, 6, 231-240, (1968).

323. Schonhorn, H., and F.W. Ryan, “Effect of polymer surface morphology on adhesion and adhesive joint strength, II. FEP Teflon and nylon 6,” J. Polymer Science Part B: Polymer Physics, 7, 105-111, (1969).

324. Schonhorn, H., and F.W. Ryan, “Surface crosslinking of polyethylene and adhesive joint strength,” J. Applied Polymer Science, 18, 235-243, (1974).

1836. Schonhorn, H., and F.W. Ryan, “Wettability of polyethylene single crystal aggregates,” J. Physical Chemistry, 70, 3811-3815, (Dec 1966).

317. Schonhorn, H., and L.H. Sharpe, “Surface energetics, adhesion, and adhesive joints, III. Surface tension of molten polyethylene,” J. Polymer Science, 3, Part A, 569-573, (1965).

318. Schonhorn, H., and L.H. Sharpe, “Surface energetics, adhesion, and adhesive joints, IV. Joints between epoxy adhesives and chlorotrifluoroethylene copolymer and terpolymer (Aclar),” J. Polymer Science, 3, Part A, 3087-3097, (1965).

 

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