Accudynetest logo

Products available online direct from the manufacturer

ACCU DYNE TEST ™ Bibliography

Provided as an information service by Diversified Enterprises.

total 2872 entries
showing result page 54 of 72, ordered by “Publisher”.

2507. Carlsson, C.M.G., and G. Strom, “Adhesion between plasma-treated cellulosic materials and polyethylene,” Surface and Interface Analysis, 17, 511-515, (Jun 1991).

2531. Vesel, A., I. Junkar, U. Cvelbar, J. Kovac, and M. Mozetic, “Surface modification of polyester by oxygen- and nitrogen-plasma treatment,” Surface and Interface Analysis, 40, 1444-1453, (Nov 2008).

2533. Vesel, A., M. Mozetic, and A. Zalar, “XPS characterization of PTFE after treatment with RF oxygen and nitrogen plasma,” Surface and Interface Analysis, 40, 661-663, (Apr 2008).

2534. Wang, M.-J., Y.-I. Chang, and F. Poncin-Epaillard, “Acid and base functionalities of nitrogen and carbon dioxide plasma-treated polystyrene,” Surface and Interface Analysis, 37, 348-355, (Mar 2005).

1693. Etzler, F.M., J.F. Bobalek, and M.A. Weiss, “Surface free energy of paper and inks: Printability issues,” in Proceedings from the TAGA International Conference, 225-237, TAGA, 1993.

1668. Roth, J.R., Z. Chen, D.M. Sherman, F. Karakaya, and P. P.-Y. Tsai, “Plasma treatment of nonwovens and films for improved wettability and printability,” in 10th Annual International TANDEC Nonwovens Conference Proceedings, TANDEC, 2000.

1669. Simor, M., J. Rahel, D. Kovacik, A. Zahoranova, M. Mazur, and M. Cernak, “Atmospheric-pressure plasma treatment of nonwovens using surface dielectric barrier discharges,” in 12th Annual International TANDEC Nonwovens Conference Proceedings, TANDEC, 2002.

1670. Roth, J.R., and T.A. Bonds, “The application of a one atmosphere uniform glow discharge plasma (OAUGDP) to roll-to-roll surface energy enhancement and plasma chemical vapor deposition (PCVD) on films and fabrics,” in 15th Annual International TANDEC Nonwovens Conference Proceedings, TANDEC, Apr 2006.

1679. Roth, J.R., L.C. Wadsworth, P.D. Spence, P.P.-Y. Tsai, and C. Liu, “One atmosphere glow discharge plasma for surface treatment of nonwovens,” in Proceedings of the 3rd Annual TANDEC Conference on Meltblowing and Spunbonding Technology, TANDEC, Nov 1993.

1680. Tsai, P.P.-Y., L. Wadsworth, P.D. Spence, and J.R. Roth, “Surface modifications of nonwoven webs using one atmosphere glow discharge plasma to improve web wettability and other textile properties,” in Proceedings of the 4th Annual TANDEC Conference on Meltblowing and Spunbonding Technology, TANDEC, Nov 1994.

1681. Roth, J.R., Z. Chen, D.M. Sherman, and F. Karakaya, “Plasma treatment of nonwovens and films for improved wettability and printability,” in Proceedings of the 10th Annual TANDEC Conference on Meltblowing and Spunbonding Technology, TANDEC, Nov 2000.

995. Greig, S., P.B. Sherman, R. Pitman, and C. Barley, “Adhesion promoters: Corona flame and ozone - a technology update,” Presented at TAPPI Polymers, Laminations, & Coatings Conference Proceedings 2000, Aug 2000.

15. Adelsky, J., “Effects of corona pre-treatment on surface characteristics of oriented polypropylene film,” TAPPI J., 72, 181-184, (Sep 1989).

22. Biggs, D., and R. Fredricks, “A study of wetting tension solutions,” TAPPI J., 77, 94-99, (Aug 1994).

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).

84. Dinelli, B., J.C. Jammet, and K. Kuusipalo, “Interactions between melt nature and pretreatments: key to good adhesion,” TAPPI J., 79, 189-193, (Sep 1996).

89. Ealer, G.E., S.B. Samuels, and W.C. Harris, “Characterization of surface-treated polyethylene for water-based ink printability,” TAPPI J., 73, 145-150, (Jan 1990).

92. Fay, M.J., and T.D. Allston, “Characterization of vapor deposited aluminum coatings on oriented polypropylene films,” TAPPI J., 77, 125-129, (Apr 1994).

152. Hansen, M.H., M.F. Finlayson, M.J. Castille, and J.D. Goins, “The role of corona discharge treatment in improving polyethylene-aluminum adhesion: an acid-base perspective,” TAPPI J., 76, 171-177, (Feb 1993).

164. Huang, T., and P. LePoutre, “Effect of basestock surface structure and chemistry on coating holdout and coated paper properties,” TAPPI J., 81, 145-152, (Aug 1998).

201. Krueger, J.J., and K.T. Hodgson, “Single-fiber wettability of highly sized pulp fibers,” TAPPI J., 77, 83-88, (Jul 1994).

220. LePoutre, P., M. Inoue, and J. Aspler, “Wetting time and critical surface energy,” TAPPI J., 68, 86-87, (Dec 1985).

226. Lundqvist, A., L. Odberg, and J.C. Berg, “Surface characterization of non-chlorine bleached pulp fibers and calcium carbonate coatings using inverse gas chromatography,” TAPPI J., 78, 139-142, (May 1995).

229. Markgraf, D.A., “Determining the size of a corona treating system,” TAPPI J., 72, 173-178, (Sep 1989).

256. Neumann, R.D., “Paper surface: beyond appearance,” TAPPI J., 80, 14-16, (Jul 1997).

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

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

359. Sun, Q.C., D.D. Zhang, and L.C. Wadsworth, “Corona treatment on polyolefin films,” TAPPI J., 81, 177-183, (Aug 1998).

414. Aspler, J.S., and M.B. Lyne, “The dynamic wettability of paper: influence of surfactant type on improved wettability of newsprint,” TAPPI J., 67, 96-99, (Oct 1984).

531. Maust, M.J., “Correlation of dispersion and polar surface energies with printing on plastic films with low VOC inks,” TAPPI J., 76, 95-97, (May 1993).

538. Morris, B., “Factors influencing adhesion in coextruded structures,” TAPPI J., 75, 107-111, (Aug 1992).

539. Nicastro, L.C., R.W. Keown. J.S. Paik, and A.B. Metzner, “Effect of storage temperature on the heat sealability of polypropylene film,” TAPPI J., 76, 175-178, (Aug 1993).

540. Nishimura, H., T. Nakao, T. Uehara, and S. Yano, “Improvement of paperboard mechanical properties through corona-discharge treatment,” TAPPI J., 73, 275-276, (Oct 1990).

579. Spell, H.L., and C.P. Christensen, “Surface analysis of corona treated polyethylene: bonding, printability problems,” TAPPI J., 62, 77-81, (1979).

584. Tsai, P.P.-Y., G.-W. Qin, and L.C. Wadsworth, “Theory and techniques of electrostatic charging of melt-blown nonwoven webs,” TAPPI J., 81, 274-278, (Jan 1998).

928. Markgraf, D.A., “Practical aspects of determining the intensity of corona treatment,” TAPPI J., 68, (Feb 1985).

1470. Crolius, V.G., W.E. Eberling, and R.C. Parsons, “The effect of processing variables on the adhesion strength of polyethylene coated aluminum foil,” TAPPI J., 45, 351-356, (May 1962).

2431. Tuominen, M., J. Lahti, and J. Kuusipalo, “Effects of flame and corona treatment on extrusion coated paper properties,” TAPPI J., 10, 29-36, (Oct 2011).

20. Bezigian, T., “The effect of corona discharge onto polymer films,” in 1991 Polymers, Laminations and Coatings Conference Proceedings, 203-208, TAPPI Press, Aug 1991.

30. Blitshteyn, M., “Wetting tension measurements on corona-treated polymer films,” in 1994 Polymers, Laminations and Coatings Conference Proceedings, 189-195, TAPPI Press, Aug 1994 (also in TAPPI J., V. 78, p. 138-143, Mar 1995).

 

<-- Previous | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 | 29 | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 | 39 | 40 | 41 | 42 | 43 | 44 | 45 | 46 | 47 | 48 | 49 | 50 | 51 | 52 | 53 | 54 | 55 | 56 | 57 | 58 | 59 | 60 | 61 | 62 | 63 | 64 | 65 | 66 | 67 | 68 | 69 | 70 | 71 | 72 | Next-->