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A study of the colour parameters, gloss retention, illuminance under glass plate and surface hardness of clear waterborne acrylic coating films containing inorganic nanoparticles during a UV+IR ageing test was carried out. Two different coating mixtures with CeO2 and ZnO nanoparticles (5%) were prepared and applied on clear glass plates. Intensive UV+IR irradiation of samples of film coatings was divided into 6 cycles and performed for 30 hours in total. It was found that inorganic nanoparticles had a significant impact on the overall colour stability of the coating films as well as on the coating gloss retention. Inorganic nanoparticles influenced the transparency properties and the coating film surface hardness.
Rocznik
Tom
Strony
107--118
Opis fizyczny
Bibliogr. 33 poz., rys., tab.
Twórcy
autor
- Kaunas University of Technology, Department of Materials Engineering, Kaunas, Lithuania
autor
- Poznań University of Life Sciences, Department of Wood Based Materials, Poznań, Poland
autor
- Poznań University of Life Sciences, Department of Wood Based Materials, Poznań, Poland
autor
- Kaunas University of Technology, Department of Production Engineering, Kaunas, Lithuania
Bibliografia
- Cayton R., Murray P.G., Nelson D., Ostrowski R. [2010]: Improved weatherability of outdoor wood stains using nanotechnology. CoatingsTech: 38-42
- Cristea M.V., Riedl B., Blanchet P. [2010]: Enhancing the performance of exterior waterborne coatings for wood by inorganic nanosized UV absorbers. Progress in Organic Coating 69 [4]: 432-441
- Cristea M.V., Riedl B., Blanchet P. [2011]: Effect of addition of nanosized UV absorbers on the physico-mechanical and thermal properties of an exterior waterborne stain for wood. Progress in Organic Coating 74 [4]: 755-762
- Cristea M.V., Riedl B., Blanchet P., Jimenez-Pique E. [2012]: Nanocharacterization techniques for investigating the durability of wood coatings. European Polymer Journal 48: 441-453
- Cui H., Zayat M., Parejo P.G., Levy D. [2007]: Highly efficient inorganic transparent UV-protective thin-film coating by low temperature sol-gel procedure for application on heat-sensitive substrates. Advanced Materials 20: 65-68
- Faure B., Salazar-Alvarez G., Ahniyaz A., Villaluenga I., Berriozabal G., Miguel Y., Bergström L. [2013]: Dispersion and surface functionalization of oxide nanoparticles for transparent photocatalytic and UV-protecting coatings. Science and Technology of Advanced Materials 14: 23
- Forsthuber R., Müller U., Teischinger A., Grüll G. [2013]: Chemical and mechanical changes during photooxidation of an acrylic clear wood coat and its prevention using UV absorber and micronized TiO2. Polymer Degradation and Stability 98: 1329-1338
- Grüneberger F., Künniger T., Huch A., Zimmermann T., Arnold M. [2015]: Nanofibrillated cellulose in wood coatings: dispersion and stabilisation of ZnO as UV absorber. Progress in Organic Coatings 87: 112-121
- Hang T.T.X., Dung N.T., Truc T.A., Duong N.T., Truoc B.V., Vu P.G., Hoang T., Thanh D.T.M., Olivier M.G. [2015]: Effect of Silane-Modified Nano ZnO on UV degradation of polyurethane coatings. Progress in Organic Coatings 79: 68-74
- Herrling T., Seifert M., Jung K. [2013]: Cerium dioxide: future UV-filter in sunscreen. SOFW-Journal: 139-145
- Hong R.Y., Li J.H., Chen L.L., Liu D.Q., Li H.Z., Zheng Y., Ding J. [2009]: Synthesis, surface modification and photocatalytic property of ZnO nanoparticles. Powder Technology 189: 426-432
- Hu J., Li X., Gao J., Zhao Q. [2009]: Ageing behaviour on acrylic polyurethane varnish coating in artificial weathering environments. Progress in Organic Coatings 65: 504-509
- Khan S.B., Faisal M., Rahman M.M., Akhtar K., Asiri A.M., Khan A., Alamry K.A. [2013]: Effect of particle size on the photocatalytic activity and sensing properties of CeO2 nanoparticles. International Journal of Electrochemical Science 8: 7284-7297
- Krystofiak T., Lis B., Proszyk S. [2012]: Possibilities of applied of lacquer coatings with nano additives in woodworking industry. Proceedings of: 23rd International Scientific Conference on Wood is Good – with Knowledge and Technology to a Competitive Forestry and Wood Technology Sector. Zagreb: 91-96
- Kubacka A., Fernandez-Garcia M., Colon G. [2012]: Advanced nanoarchitectures for solar photocatalytic applications. Chemicals Reviews 112 [3]: 1555-1614
- Lima J.F., Martins R.F., Serra O.A. [2012]: Transparent UV-absorbers thin films of zinc oxide: Ceria system synthesized via sol-gel process. Optical Materials 35: 56-60
- Lowry M.S., Hubble D.R., Wressell A.L., Vratsanos M.S., Pepe F.R., Hegedus C.R. [2008]: Assessment of UV-permeability in nano-ZnO filled coatings via high throughput experimentation. Journal of Coatings Technology and Research 5 [2]: 233-239
- Miklečić J., Turkulin H., Jirouš-Rajković V. [2017]: Weathering performance of surface of thermally modified wood finished with nanoparticles-modified waterborne polyacrylate coatings. Applied Surface Science 408: 103-109
- Mirabedini S.M., Sabzi M., Zohuriaan-Mehr J., Behzadnasab M. [2011]: Weathering performance of the polyurethane nanocomposite coatings containing silane-treated TiO2 nanoparticles. Applied Surface Science 257: 4196-4203
- Nowaczyk-Organista M. [2009]: Protection of birch and walnut wood colour from the effect of exposure to light using ultra-fine zinc white. Drewno 52 [181]: 19-41
- Pospíšil J., Nešpurek S. [2010]: Photostabilization of coatings. Mechanisms and performance. Progress in Polymer Science 25 [9]: 1261-1335
- Rowell R.M. [2012]: Handbook of wood chemistry and wood composites. Taylor & Francis Group, USA
- Saadat-Monfareda A., Mohsenia M., Tabatabei M.H. [2012]: Polyurethane nanocomposite films containing nano-cerium oxide as UV absorber. Part 1. Static and dynamic light scattering, small angle neutron scattering and optical studies. Colloids and Surfaces A: Physicochemical and Engineering Aspects 408: 64-70
- Schaller C., Rogez D., Braig A. [2012]: Organic vs inorganic light stabilizers for waterborne clear coats: a fair comparison. Journal of Coatings Technology and Research 9: 433-441
- Talam S., Karumuri S.R., Gunnam N. [2012]: Synthesis, characterization, and spectroscopic properties of ZnO nanoparticles. ISRN Nanotechnology, Article ID: 372505: 1-6. DOI: 10.5402/2012/372505
- Talbert R. [2008]: Paint technology book. Taylor & Francis Group, USA
- Tessier F., Cherivé F., Muñoz F., Merdrignac-Conanec O., Marchand R., Bouchard M., Colbeau-Justin C. [2008]: Powder preparation and UV absorption properties of selected compositions in the CeO2-Y2O3 system. Journal of Solid State Chemistry 181 [5]: 1204-1212
- Vaja (Dumitru) F., Comanescu C., Oprea O., Ficai D., Guran C. [2012]: Effects of ZnO nanoparticles on the wet scrub resistance and photocatalytic properties of acrylic coatings. Revista de Chimie 63 [7]: 722-726
- Wang J., Tsuzuki T., Sun L., Wang X. [2009]: Reducing the photocatalytic activity of zinc oxide quantum dots by surface modification. Journal of the American Ceramic Society 92 [9]: 2083-2088
- Wicks Z.W., Jones F.N., Pappas S.P., Wicks D.A. [2007]: Organic coatings. Science and Technology. Third edition. Willey Interscience, USA
- List of standards
- PN-88/F-06100/07:1988 Meble. Metody badań właściwości powłok lakierowych į laminowanych. Oznaczanie odporności na działanie zmiennych temperatur (Testing methods for the properties of lacquers and decorative laminated surfaces. Variable temperature test)
- ISO 2813:2014 Paints and varnishes. Determination of gloss value at 20 degrees, 60 degrees and 85 degrees
- ISO 1522:2006 Paint and varnishes. Pendulum damping test
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a855c969-e39c-4f90-a3cd-1de12773dc3f
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