ACCU DYNE TEST ™ Bibliography
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3009. Rau, A., “Treating your business (and your customers) with corona treatment,” PFFC, 28, 8-9, (Dec 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.
3022. Smith, R.E., “Personal communication: Comments on “Why test inks cannot tell the full truth about surface free energy”,” Diversified Enterprises, Jan 2024.
601. Klein, A., “Navigating challenges in corona treatment,” PFFC, 29, 12-15, (Jan 2024).
3041. Eisby, J., “Surface treatment: The importance of getting it right,” PFFC, 29, 20-22, (May 2024).
3042. Lang, M., “Surface tension and wettability,” PFFC, 29, 8-12, (May 2024).
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.
3044. Mancinelli, S., “'Nitro-Hydro-Flame' treatment technology for polymer surfaces,” Converting Quarterly, 14, 64-67, (Nov 2024).
3045. Smith, R.E., “Mis-steps to avoid when performing a dyne test,” PFFC, 30, 16-17, (Jan 2025).
3047. Mount, E.M. III, “Film surface treatment mysteries,” Converting Quarterly, 15, 38-41, (Jan 2025).
3048. Lee, W., and M. Plantier, “Choosing the best surface treatment technology: Plasma vs. flame,” Plastics Decorating, 32-34, (Jan 2025).
3046. Eisby, J., “It's all about adhesion: A simple guide to corona treatment,” PFFC, 98, 28-31, (Feb 2025).
807. Zenkiewicz, M., “Corona discharge in air as a method of modification of polymeric materials' surface layers,” Polimery, 53, 1-13, (Jan 2008).
The physical and chemical principles of the process of polymeric material surface layer (WW) modification using corona discharge (WK) in an air were discussed. The phenomenon of low temperature plasma formation and the way of its interaction with polymer surface were described. Basic aims of the process of modification with WK were presented as well as the results obtained this way for particular polymers, among others PE, PP, PVC, PET. In case of PE and PP also the composite materials with polyolefine matrix or fiber filler were considered. The possibilities of corona discharge use in graft polymerization were noticed. Also numerous directions of practical use of the changes of polymers' surface layers caused by corona discharge were marked.
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