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7/25/2019 Advanced UV Powder Coatings oct 2006
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Advanced UV Powder Coatings
October 16, 2006
Daniel Mae tens
Ultraviolet (UV) powder coatings combine the advantages of thermosetting powder coatings with
those of liquid ultraviolet cure coating technologies. The difference between standard and UV
powder coatings is that in UV systems, melting and curing are separated into two distinct process
Upon exposure to heat, UV curable powder coating particles melt and flow into a homogeneous fi
that is cured only when it is exposed to UV light. The most popular curing mechanism used for thtechnology is the free-radical process, in which UV light activates photoinitiators in the molten f
to form free radicals that initiate a polymerization reaction involving resin double bonds. The fin
coating appearance and performance depends on the selection of resin systems, photoinitiators,
pigments, fillers and additives, as well as on the powder coating process conditions and curing
parameters.
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Figure 1. Patents on UV powders over the past 30 years.
UV powder coating technology isn't new - many of the "pioneers" in the UV powder concept were
already active in 1970. However, the past decade has seen a significant increase in research and
development in this technology, as evidenced by the number of patents issued during this time (s
Figure 1). Many UV powder formulations that can be cured by free-radical polymerization are now
commercially available, including systems based on acrylated or methacrylated polyesters or
polyacrylates, acid fumaric-based polyesters alone or in combination with solid vinylethers,
acrylated or methacrylated epoxy resins, and unsaturated urethane-based systems. Systems are
also available based on specific epoxy resins that can be UV-cured by a photocationic mechanism
Optimization of UV powder coatings has resulted in extremely good flow out, making smooth
finishes achievable at temperatures as low as 100C.
Figure 2. Heating/curing profile applied on MDF.
Recently, a new UV powder coating technology has been developed that is based on a combinatio
of polyester and epoxy chemistries. Although "hybrid powders" combining polyester and epoxy
resins have been available for more than 20 years in thermosetting powders, the degree of cure
achieved at low temperatures (e.g., 120C) is only "just good enough" after long curing times (e.g.
20 to 30 minutes). In contrast, the new UV-cured powder coating films fulfill the most stringent
specifications after only a couple of minutes under low heat and UV light,8 which allows them to
used in challenging market segments such as wood and wood composites, plastics and metals.
Table 1. Powder coating formulations for the UV curing test.
1 2 3
4 5
7
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The combination of a methacrylated polyester and acrylated epoxy resin provides an interesting
blend of properties to the cured film. The polyester backbone results in good resistance in
weathering tests, while the epoxy backbone provides outstanding chemical resistance, as well as
improved adhesion and smoothness.
To test the resulting finish, a methacrylated polyester and two blends of the same polyester and a
acrylated type-3 epoxy resin based on bisphenol-A and epichlorhydrine9 were formulated into UVpowder coatings using the recipe shown in Table 1. The heating/curing profile used in the test is
shown in Figure 2.
Medium infrared radiation was applied first to melt the powder particles. Film forming was
achieved in a second zone by applying convection heat, and curing of the film was achieved in a
third zone by irradiation with UV light. UV irradiation always increased the surface temperature,
but the measurements clearly indicated that the temperature just beneath the surface was well
controlled and was limited to 110C for the entire cycle of less than three minutes - a very short
period of time compared to the times required for thermosetting powders cured around 120C.
Table 2. MEK rubs of UV-cured polyester/epoxy blends.As shown in Table 2, an enhanced reactivity was demonstrated for the polyester/epoxy UV powde
which resulted from the conversion of the double bonds with lower UV light doses. The quality of
the double bond conversion was checked by a methylethylketone (MEK) rubbing test.
The choice of phthalic acid derivative (PA) in the synthesis process yielded methacrylated
polyesters with a similar Tg but with different melt viscosities. When blended with acrylated epox
resins, polyesters with a high Tg and a low melt viscosity produced a binder with the lowest meltviscosity for optimum coating smoothness, as shown in Table 3 (p. 28).
It is important to note that powders incorporating binders with hydroxyketone-based
photoinitiators can experience some caking during storage and some fusion bonding during
transportation from feeders to spray guns. However, if these limitations can be controlled throug
air-conditioned work zones, micronization of the powders, chilled mills or other means, such
systems can produce smooth films.
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Combining polyester and epoxy chemistries in UV powders yields smoothness, adhesion and
chemical resistance in the resulting finish.
Blends of specific polyesters and epoxy resins have permitted the development of smooth, high-
performance finishes for wood, metal, plastic and toner applications.
. Smooth, matte clear coats have been successfully applied on hardwood and on veneered
composite board, such as beech, ash and oak. The presence of the epoxy partner in the binder has
boosted the chemical resistance of all the coatings tested.
An attractive market segment for the advanced UV powders is as a replacement for polyvinyl
chloride (PVC) laminates on medium-density fiberboard (MDF) panels for the furniture industry.
Combined polyester and epoxy structures have allowed UV powders applied on MDF to pass the
norm DIN 68861 specification, including chemical, abrasion, scratch and heat resistance.
However, the ratio of polyester to epoxy affects the results in accelerated weathering tests; the
more polyester in the binder, the less yellowing of the coating. A compromise between UV
resistance and chemical resistance or smoothness needs to be found if accelerated weathering tes
must be used.
Table 3. Tg and viscosity comparison between resins for UV powders.
. UV curable powders based on polyester/epoxy blends and applied on metallic substrates h
exhibited excellent adhesion and improved corrosion resistance. A copper accelerated salt spray
(CASS) test performed according to ASTM B368 to assess the corrosion resistance of clear and wh
formulations applied on yellow chromated aluminum and on electrolytic chromium coated steel
showed good results.
. When applied as protective clears on PVC tiles for resilient floorings or on sheet molding
8,10,11,12
13
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compound (SMC) panels for OEM applications, the polyester/epoxy combination yields UV powde
with high levels of flexibility and chemical resistance.10 Abrasion resistance for matte clear coats
good; however, more work is required to achieve high-gloss clear coats.
. A joint development with a toner producer revealed that (meth)acrylated polyester/epoxy
blends used as binders for colored toners gave the required toner properties after melting and UV
curing.
The UV curable powders have exhibited excellent adhesion and improved corrosion resistance on
metallic substrates.
Combining polyester and epoxy chemistries in UV powders yields smoothness, adhesion and
chemical resistance in wood furniture, metal, plastic and toner applications. With these advanced
UV powder coatings, finishing professionals in a variety of industries have a new option for
achieving a high-performance finish with a rapid cure.
1. A mixture of crystalline UV-PE and acrylic, US 6.384.102 (Cytec Surface Specialties).
2. EP 0 585 742 (Cytec Surface Specialties).
3. EP 0 636 669 (DSM).
4. EP 0 286 594 (Vantico).
5. EP 0 410 242 (Bayer).
6. EP 0 667 381 (Vantico).
7. WO 02/100957 (DuPont).
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Copyright 2016. All Rights Reserved BNP Media.
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Recent Articles By Daniel Maetens
Combining Polyester and Epoxy Chemistries for
Optimal Performance of UV Powders
Daniel Maetens is group leader of R&D Powder Coatings
for Cytec Surface Specialties. For more information about
advanced UV powder coatings, call 800.652.6013 or
973.357.3193, e-mail [email protected] or visit
www.surface-specialties.com.
8. K. Buysens and O. Andr, "UV Curable Powder Coatings for Wood: The Ultimate Solution?"
Fatipec Congress, Sept. 9-11, 2002, Desden, Germany.
9. P.J. Flory, Principles of Polymer Chemistry, Chapter IX, Cornell University Press, Ithaca, N.Y.,
1953, p. 347.
10. Y. Souris and K. Buysens, "New UV Powder Systems for Metal, Wood and PVC," Journal frObenflchenTechnik, January 2001, pp. 24-31.
11. K. Buysens, "UV Curable Powder Coatings on Wood: Benefits and Performance," Paint &
Coatings Industry, November 2001, pp. 60-66.
12. C. Zune and K. Buysens, "New Resins for UV Curable Powder Coatings - Wood Applications,"
Creative Advances in Coatings Technology, April 2-4, 2001, Nrenberg, Germany.
13. G.E. Booth and S.F. Thames, "Real Time Curing Kinetics and Crosslinking Efficiency of UV
Curable Powder Coatings," International Waterborne, High-Solids and Powder Coatings
Symposium, February 6-8, 2002, New Orleans, LA.
http://www.pcimag.com/articles/86998-combining-polyester-and-epoxy-chemistries-for-optimal-performance-of-uv-powdershttp://www.pcimag.com/authors/2459-daniel-maetenshttp://www.epublishing.com/