ACCU DYNE TEST ™ Bibliography Page 70 Ordered by “Publisher”

ACCU DYNE TEST ™ Bibliography

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1119. Long, J., and P. Chen, “Thermodynamics of contact angles on rough, heterogeneous surfaces,” in Molecular Interfacial Phenomena of Polymers and Biopolymers, Chen, P., ed., 119-158, Woodhead Publishing, Sep 2005.

1132. Grundke, K., “Surface-energetic properties of polymers in controlled architecture,” in Molecular Interfacial Phenomena of Polymers and Biopolymers, Chen, P., ed., 323-418, Woodhead Publishing, Sep 2005.

1162. Ekevall, E., J.I.B. Wilson, and R.R. Mather, “The effect of ammonia and sulphur dioxide gas plasma treatments on polymer surfaces,” in Medical Textiles and Biomaterials for Healthcare, Anand, S.C., J.F. Kennedy, M. Miraftab, and S. Rajendran, eds., 491-498, Woodhead Publishing, Dec 2005.

1464. Zhong, W., “Surface tension, wetting and wicking,” in Thermal and Moisture Transport in Fibrous Materials, Pan, N., and P. Gibson, eds., 136-155, Woodhead Publishing, Nov 2006.

1465. Rengasamy, R.S., “Wetting phenomena in fibrous materials,” in Thermal and Moisture Transport in Fibrous Materials, Pan, N., and P. Gibson, eds., 156-187, Woodhead Publishing, Nov 2006.

1466. Pan, N., and Z. Sun, “Interactions between liquid and fibrous materials,” in Thermal and Moisture Transport in Fibrous Materials, Pan, N., and P. Gibson, eds., 188-222, Woodhead Publishing, Nov 2006.

1569. Graham, W.G., “Plasma science and technology,” in Plasma Technologies for Textiles, Shishoo, R., ed., 1-24, Woodhead Publishing, Mar 2007.

1570. Bradley, J.W., and P.M. Bryant, “The diagnosis of plasmas used in the processing of textiles and other materials,” in Plasma Technologies for Textiles, Shishoo, R., ed., 25-63, Woodhead Publishing, Mar 2007.

1571. Herbert, T., “Atmospheric-pressure cold plasma processing technology,” in Plasma Technologies for Textiles, Shishoo, R., ed., 79-128, Woodhead Publishing, Mar 2007.

1572. Stegmaier, T., A. Dinkelmann, and V. von Arnim, “Corona and dielectric barrier discharge plasma treatment of textiles for technical applications,” in Plasma Technologies for Textiles, Shishoo, R., ed., 129-180, Woodhead Publishing, Mar 2007.

1573. Johansson, K., “Plasma modification of natural cellulosic fibres,” in Plasma Technologies for Textiles, Shishoo, R., ed., 247-281, Woodhead Publishing, Mar 2007.

1574. Marcandalli, B., and C. Riccardi, “Plasma treatments of fibers and textiles,” in Plasma Technologies for Textiles, Shishoo, R., ed., 282-315, Woodhead Publishing, Mar 2007.

1334. Neumann, A.W., and P.J. Sell, “Relations between surface energetics,” Z. Physik. Chem., 227, 187-194, (1964).

1332. Sell, P.J., and A.W. Neumann, “Estimation of surface and interfacial tensions of solids,” Z. Physik. Chem. Neue Folge, 41, 191-196, (1964).

1333. Neumann, A.W., “Methods for measuring surface energetics, part I: Contact angles,” Z. Physik. Chem. Neue Folge, 41, 339-352, (1964).

1347. Murokh, I.Y., “Atmospheric plasma surface treatment technique,” http://Tri-Star-Technologies/news/articles/atmosphericplasmasurfacetreatment.pdf, 2005.

2643. Smith, R.E., “Using the dyne test to evaluate the cleanliness of metals,” http://accudynetest.com/dyne_test_metal_cleanliness.html, Mar 2016.

2954. Smith, R.E., “Consistent application of dyne solution with cotton swabs,” http://blog.accudynetest.com/consistent-application-of-dyne-solution-with-cotton-swabs, Nov 2023.

2680. Smith, R.E., “Corona treater output vs. increase in dyne level,” http://blog.accudynetest.com/corona-treater-output-vs-increase-in-dyne-level/, Aug 2016.

2681. Smith, R.E., “Discrepant results from one test marker compared to others at the same dyne level,” http://blog.accudynetest.com/discrepant-results-from-one-test-marker-compared-to-others-at-the-same-dyne-level/, Sep 2016.

2956. Smith, R.E., “Dyne level loss on corona treated surfaces,” http://blog.accudynetest.com/dyne-level-loss-on-corona-treated-surfaces, Nov 2023.

2914. Smith, R.E., “Effect of surface roughness on dyne testing,” http://blog.accudynetest.com/effect-of-surface-roughness-on-dyne-testing/, Nov 2022.

2945. Smith, R.E., “Excessive dyne level drop in high slip PE film,” http://blog.accudynetest.com/excessive-dyne-level-drop-in-high-slip-pe-film, Feb 2023.

3015. Smith, R.E., “Solubility parameters and their relevance to dyne testing,” http://blog.accudynetest.com/solubility-parameters-and-their-relevance-to-dyne-testing/, Dec 2023.

2683. Smith, R.E., “Subsequent processing of dyne tested parts,” http://blog.accudynetest.com/subsequent-processing-of-dyne-tested-parts/, Nov 2016.

2913. Smith, R.E., “Testing PET for the presence of a silicone coating,” http://blog.accudynetest.com/testing-pet-for-the-presence-of-a-silicone-coating/, Nov 2022.

2946. Smith, R.E., “Unusually high dyne level results on aluminum,” http://blog.accudynetest.com/unusually-high-dyne-level-results-on-aluminum, Jan 2023.

2682. Smith, R.E., “Using surface tension test fluids to calibrate a tensiometer,” http://blog.accudynetest.com/using-surface-tension-test-fluids-to-calibrate-a-tensiometer/, Sep 2016.

2260. Bishop, C.A., “Why polymer films can differ & hence may respond differently to the same surface treatment,” http://convertingquarterly.com/blogs/vacuum-web-coating/id/1587/, Aug 2010.

2475. Gatenby, A., “CSC Scientific blog: What are the primary conditions affecting surface tension?,” http://cscscientific.com/csc-cientific-blog/bid/85407/, Sep 2013.

1678. Della Volpe, C., and S. Siboni, “Calculations of acid-base surface tension components: SurfTen 4.3, a program for the calculation of acid-base solid surface free energy components,” http://devolmac.ing.unitn.it:8080/, Jul 2004.

2669. Reisig, S., “Comparative study between pulsed-DC and RF plasma pre-treatment of polymer web,” http://flexpack.info/laminating/comparative-study-between-pulsed-DC-and..., Jan 2017.

2611. Raghavan, V., “Acrylics on plastics: Basics of wetting and adhesion,” http://justpaint.org/acrylics-on-plastics/, Aug 2014.

2188. Koltzenburg, T., “Ozone generation: Sherman Treaters/Pillar give the goods,” http://pffc-online.com/news/paper, Feb 2002.

2189. Wolf, R.A., “Plasma power,” http://pffc-online.com/surface_prep/corona_flame_plasma/paper-plasma-power-0509, May 2009.

2192. no author cited, “Surface treatment trouble shooting: Why can't I achieve the dyne levels I once could?,” http://pillartech.com/treaters-eu/trtr5.htm,

2190. no author cited, “Surface treatment trouble shooting: General reasons for 'unwanted' backside corona treatment,” http://pillartech.com/treaters-eu/trtr6.htm,

2191. no author cited, “Surface treatment trouble shooting: 'Covered roll' vs. 'uncovered roll' treater stations,” http://pillartech.com/treaters-eu/trtr7.htm,

2605. Kaverman, J., “TPE, TPO, TPU present challenges for pad printing,” http://plasticsdecorating.com/?p=498, Feb 2015.

2466. Sabreen, S.R., “How coloring plastic affects secondary processes,” http://plasticsdecorating.com/e-news/stories/041113/sabreen.shtml, Apr 2013.

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