ACCU DYNE TEST ™ Bibliography
Provided as an information service by Diversified Enterprises.
showing result page 76 of 77, ordered by
1623. Bishop, C.A., “Adhesion problems with metallized CPP,” http://www.webcoatingblog.com, Dec 2007.
1624. Wolf, R.A., “Response to question on modes of measuring or characterizing plasma treatment efficiency on Kapton,” http://www.webcoatingblog.com, Sep 2007.
2831. Brehmer, F., “Gentle plasma - surface treatment for sensitive materials,” https://3dtllc.com/gentle-plasma-surface-treatment-sensitive-materials/, Dec 2016.
2803. no author cited, “How to measure dyne levels in substrates,” https://blog.lddavis.com/how-to-measure-dyne-levels-in-substrates, Sep 2018.
2811. Ceschan, M., and R.E. Smith, “In depth look at dyne testing,” https://blog.lddavis.com/in-depth-look-at-dyne-testing, Mar 2020.
2844. Gerke, G., “Can plasma surface treatment deliver sustainable solutions and reduce cost?,” https://digitaledition.flexpackmag.com/march-2021/plasma-surface/?oly_enc_id=1127B7669590J0V, Mar 2021.
2825. Sabreen, S.R., “Adhesion bonding of high-performance polymers,” https://plasticsdecorating.com/enews/2018/adhesion-bonding-of-high-performance-polymers, Nov 2018.
2826. Sabreen, S.R., “Advances in atmospheric plasma treatment for polymer adhesion,” https://plasticsdecorating.com/enews/2018/advances-in-atmospheric-plasma-treatment-for-polymer-adhesion, Dec 2018.
2824. Sabreen, S.R., “Flame plasma treatment: The importance of zero gas pressure regulators,” https://plasticsdecorating.com/enews/2018/flame-plasma-treatment-the importance-of-zero-gas-pressure-regulators, Oct 2018.
2827. Kohinhofer, G., “Reviewing surface treatments: Decorating, printing and bonding on plastic IS possible,” https://plasticsdecorating.com/enews/2020/reviewing-surface-treatments-decorating-printing-and-bonding-on-plastic-is-possible, Jul 2020.
2832. Kiel, A., “Corona treatment systems - overcoming the effects of heat and humidity,” https://www.3dtllc.com/corona-treatment-systems-overcoming-effects-heat-humidity/, Jul 2017.
2830. Kiel, A., “Corona vs. plasma treatment,” https://www.3dtllc.com/corona-vs-plasma-treatment/, Aug 2016.
2833. Kiel, A., “Finding the sweet spot and the right corona treater for polypropylene,” https://www.3dtllc.com/finding-the-sweet-spot-when-corona-treating-polypropylene/, Mar 2020.
2795. Ranowsky, A., “CSC Scientific blog: Contact angle fundamentals: What you actually need to know,” https://www.cscscientific.com/csc-scientific-blog/contact-angle-fundamentals, Aug 2019.
2227. Gatenby, A., “CSC Scientific blog: Having trouble performing a DuNouy ring test in thick samples?,” https://www.cscscientific.com/csc-scientific-blog/having-trouble-performing-a-dunouy-ring-test-in-thick-samples, Nov 2010.
2592. Gatenby, A., “CSC Scientific blog: How are consistency, surface tension, and viscosity different?,” https://www.cscscientific.com/csc-scientific-blog/how-are-consistency-surface-tension-and-viscosity-different, Feb 2014.
1650. Ranowsky, A., “CSC Scientific blog: Contact angle and surface tension - a fascinating liaison,” https://www.cscscientific.com/csc-scientific-blog/how-does-contact-angle-relate-to-surface-tension, Apr 2016.
2228. Gatenby, A., “CSC Scientific blog: How does surface tension relate to viscosity?,” https://www.cscscientific.com/csc-scientific-blog/how-does-surface-tension-relate-to-viscosity, Jan 2011.
3043. Gatenby, A., “CSC Scientific blog: A classical definition of contact anngle,” https://www.cscscientific.com/csc-scientific-blog/initiation-to-contact-angle, Aug 2016.
2652. Gatenby, A., “CSC Scientific blog: Should you move to 'actual' surface tension?,” https://www.cscscientific.com/csc-scientific-blog/should-you-convert-to-actual-surface-tension, Sep 2016.
2224. Gatenby, A., “CSC Scientific blog: Surface tension by DuNouy rings or Wilhelmy plates - which to choose?,” https://www.cscscientific.com/csc-scientific-blog/surface-tension-by-dunouy-rings-or-wilhelmy-plates-which-to-choose, Aug 2010.
2791. Gatenby, A., “CSC Scientific blog: Surface tension - rings, bubbles, drops, and plates,” https://www.cscscientific.com/csc-scientific-blog/surface-tension-rings-bubbles-drops-and-plates, Feb 2019.
2915. Gatenby, A., “CSC Scientific blog: Guide to surface tension, surfactants and micelles,” https://www.cscscientific.com/csc-scientific-blog/topic/surfactants, Oct 2022.
2865. Jang, C., “CSC Scientific blog: Understanding the role of platinum in Du Nouy tensiometer rings,” https://www.cscscientific.com/csc-scientific-blog/understanding-the-role-of-platinum-in-de-nouy-tensiometer-rings?, Aug 2024.
2475. Gatenby, A., “CSC Scientific blog: What are the primary conditions affecting surface tension?,” https://www.cscscientific.com/csc-scientific-blog/what-are-the-primary-conditions-affecting-surface-tension, Sep 2013.
2298. Gatenby, A., “CSC Scientific blog: Which type of tensiometer do I need?,” https://www.cscscientific.com/csc-scientific-blog/which-type-of-tensiometer-do-i-need, Dec 2011.
2259. Gatenby, A., “CSC Scientific blog: Why calibrate a CSC DuNouy tensiometer?,” https://www.cscscientific.com/csc-scientific-blog/why-calibrate-a-csc-dunouy-tensiometer, Sep 2011.
2942. no author cited, “Determination of contact angles by different methods of dropshape analysis (Application note 12),” https://www.dataphysics-instruments.com/Downloads/12,
2943. no author cited, “Calculation of a new reference liquid by measurement on a known solid surface (Application note 17),” https://www.dataphysics-instruments.com/Downloads/17,
2944. no author cited, “Dynamic contact angle measurements on curved surfaces by using the bridge-function (Application note 22),” https://www.dataphysics-instruments.com/Downloads/22,
2939. no author cited, “Determination of the surface tension between a printing ink and fountain water during the offset process (Application note 3),” https://www.dataphysics-instruments.com/Downloads/3,
2940. no author cited, “Optimisation of the determination of surface free energies of polymers (Application note 4),” https://www.dataphysics-instruments.com/Downloads/4,
2941. no author cited, “Simplified determination of the surface free energy of polymers (Application note 6),” https://www.dataphysics-instruments.com/Downloads/6,
2456. Utschig, S., “Measuring surface energy on non-porous substrates,” https://www.enerconind.com/web-treating/support/application-support/measuring-surface-energy-on-non-porous-substrates.aspx, 2012.
2855. no author cited, “Pretreatment methods for glass,” https://www.inkcups.com/blog/pretreatment-methods-for-glass/, July 2019.
2847. Nzeribe, K., “Advancements in manufacturing hydrophilic porous plastics,” https://www.medicalplasticsnews.com/medical-plastics-industry-insights/medical-plastics-materials-insights/advancements-in-manufacturing-hydrophilic-porous-plastics, Jul 2021.
2856. no author cited, “Dynamic surface tension and surface energy in ink formulations and substrates,” https://www.pcimag.com/articles/85879-dynamic-surface-tension-and-surface-energy-in-ink-formulations-and-substrates, May 2001.
2911. no author cited, “How are probe liquids selected for surface energy measurements?,” https://www.physics.stackexchange.com/questions/243750/how-are-probe-liquids-selected,
2859. no author cited, “Wetting and contact angle (TeachEngineering STEM Curriculum for K-12),” https://www.teachengineering.org/lessons/view/duk__surface tensionunit_less3,
2805. no author cited, “A practical means to measure surface treatment levels of PE film using PGX+, a new portable contact angle instrument,” https://www.testingmachines.com/pdf/contact-angle-vs-dyne-pen.pdf,
<-- 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 | 73 | 74 | 75 | 76 | 77 | Next-->