Ayata U. [2019]: Effects of artificial aging on the surface properties of ultraviolet varnish applied to lemonwood (Citrus limon (L.) Burm.). Bioresources 14: 8313-8323. DOI: 10.15376/biores.14.4.8313-8323.
Ayata U., Cakicier N. [2021]: Determination of pendulum hardness (könig method) values against artificial aging in water-based varnishes applied to some wood species after heat treatment (ThermoWood). Drevno 64: 45-61. DOI: 10.12841/wood.1644-3985.381.06.
Ayata U., Cakicier N., Gurleyen L. [2021a]: Determination of the artificial aging performance of the apricot wood applied with UV system parquet varnish used indoors. Furniture and Wooden Material Research Journal 4: 40-50. DOI: 10.33725/mamad.922311.
Ayata U., Cakicier N., Gurleyen L. [2021c]: Determination of some surface properties of UV curable varnish-applied cedar wood after artificial aging application. Furniture and Wooden Material Research Journal 4: 145-154. DOI: 10.33725/mamad.1005120.
Ayata U., Esteves B., Gurleyen L., Cakicier N., Ferreira J., Domingos I., Turk M. [2021b]. Effect of accelerated ageıng on some surface propertıes of UV-coated hackberry (Celtis australis L.) wood parquet. Drevno 64: 17-33. DOI: 10.12841/wood.1644-3985.383.09.
Aytaskin A. [2009]: Some technological properties of wood impregnated with various chemical substances, 134 p. M. Sc. Thesis Karabük University, Graduate School of Natural and Applied Sciences, Department of Furniture and Decoration Education, Karabük, Turkey.
Bal B.C., Ayata U., Cavus V., Efe F.T. [2018]. Determination of screw holding capacity in walnut, maun, chestnut and lime woods. 5th International Congress on Multidisciplinary Studies 02th-03th November 2018, Antalya, Turkey 1: 383-396.
Barański J., Klement I., Vilkovská T., Konopka A. [2017]: High temperature drying process of beech wood (Fagus sylvatica L.) with different zones of sapwood and red false heartwood. BioResources 12: 1861-1870. DOI: 10.15376/biores.12.1.1861-1870.
Cavus V. [2021]: Aging performance of mulberry wood with UV varnish applied and its mechanical properties. BioResources 16: 6791-6798. DOI: 10.15376/biores.16.4.6791-6798.
Clerc G., Brülisauer M., Affolter S., Volkmer T., Pichelin F., Niemz P. [2017]: Characterization of the ageing process of one-component polyurethane moisture curing wood adhesive. International Journal of Adhesion and Adhesives 72: 130-138. DOI: 10.1016/j.ijadhadh.2016.09.008.
Conti F., Abate G., Alessandrini A., Blasi C. [2005]: An annotated Checklist of the Italian vascular flora. vol. 1. Roma (Italy): Palombi Editore; pp. 175.
Cui X., Matsumura J. [2019]: Wood surface changes of heat-treated Cunninghamia lanceolate following natural aging, Forests, 10: 791. DOI: 10.3390/f10090791.
Dawidowicz A.L., Typek R., Dybowski M.P., Nowakowski P. [2019]: Does the increase of radiation energy really reduce the risk of photoinitiator migration from polygraphic varnish to packed product? The influence of UV radiation dose on the migration of 4-phenylbenzophenone from polyacrylate varnish in food packaging. Food Packaging and Shelf Life 20: 100308. DOI: 10.1016/j.fpsl.2019.100308.
de la Caba K., Guerrero P., del Rio M., Mondragon I. [2007]: Aging behaviour of wood-faced construction materials. Construction and Building Materials 21: 1288-1294. DOI: 10.1016/j.conbuildmat.2006.02.008.
Derbyshire H., Miller E.R. [1981]. The Photodegradation of Wood during Solar Irradiation. Part 1: Effects on the Structural Integrity of Thin Wood Strips. Holz Roh Werkst 39: 341-350.
Feist W.C. [1989]. Outdoor Wood Aging and Protection, In Archaeological Wood: Properties, Chemistry, and Preservation; Rowell, R.M., Barbour, R.J., Eds.; American Chemical Society: Los Angeles, CA, USA.
Fufa S.M., Jelle B.P., Hovde P.J., Rørvik P.M. [2012]. Impregnated wooden claddings and the influence of nanoparticles on the aging performance. Wood Material Science and Engineering 7: 186-195. DOI: 10.1080/17480272.2012.692390.
Gregorovich B.V., Adamsons K., Lin L. [2001]: Scratch and mar and other mechanical properties as a function of chemical structure for automotive refinish coatings. Progress in Organic Coatings 43: 175-187. DOI: 10.1016/S0300-9440(01)00187-4.
Gurleyen L. [2020]: Effect of artificial aging on the some surface properties of UV system parquet varnish applied to persian silk (Albizia julibrissin) wood. Turkish Journal of Forestry 21: 451-460. DOI: 10.18182/tjf.795597.
Gurleyen L. [2021]: Effects of artificial aging on the color, gloss, adhesion, and pendulum hardness of UV system parquet varnish applied to doussie (Afzelia africana) wood. BioResources 16: 1616-1627. DOI: 10.15376/biores.16.1.1616-1627.
Johnson B., McIntyre R. [1996]: Analysis of test methods for UV durability predictions of polymer coatings. Progress in Organic Coatings 27: 95-106. DOI: 10.1016/0300-9440(94)00525-7.
Lee B.H., Kim H.J. [2006]: Influence of isocyanate type of acrylated urethane oligomer and of additives on aging of UV-cured films. Polymer Degradation and Stability 91: 1025-1035. DOI: 10.1016/j.polymdegradstab.2005.08.002.
Nichols M.E., Gerlock J.L., Smith C.A., Darr C.A. [1999]: The effects of aging on the mechanical performance of automotive paint systems. Progress in Organic Coatings 35: 153-159. DOI: 10.1016/S0300-9440(98)00060-5.
Peng Y., Wang Y., Chen P., Wang W., Cao J. [2020]: Enhancing aging resistance of wood by using bark extractives as natural photostabilizers in polyurethane-acrylate coating. Progress in Organic Coatings 145: 105665. DOI: 10.1016/j.porgcoat.2020.105665.
Seo T.W., Weon J.I. [2012]. Influence of aging and substrate roughness on the interfacial adhesion of acrylic coating based on an increasing load scratch test. Journal of Materials Science 47: 2234-2240. DOI: 10.1007/s10853-011-6034-2.
Sogutlu C., Sonmez A. [2006]: The effect of UV lights on color changes on some local wood processed with differential preservatives. Journal of the Faculty of Engineering and Architecture of Gazi University 21: 151-159.
Sonmez A. [1989]: Durability of varnishes used on surfaces of wooden furniture against important physical mechanical and chemical effects. 142 p. Ph D. Thesis Gazi University, Institute of Science and Technology, Ankara, Turkey.
Sow C., Riedl B., Blanchet P. [2011]: UV-waterborne polyurethane-acrylate nanocomposite coatings containing alumina and silica nanoparticles for wood: mechanical, optical, and thermal properties assessment. Journal of Coatings Technology and Research 8: 211-221. DOI: 10.1007/s11998-010-9298-6.
Tolvaj L., Faix O. [1995]: Artificial ageing of wood monitored by DRIFT spectroscopy and CIE L*a*b* color measurements, I. Effect of UV light. Holzforschung 49: 397-404.
We process personal data collected when visiting the website. The function of obtaining information about users and their behavior is carried out by voluntarily entered information in forms and saving cookies in end devices. Data, including cookies, are used to provide services, improve the user experience and to analyze the traffic in accordance with the Privacy policy. Data are also collected and processed by Google Analytics tool (more).
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.