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This paper deals with a colour modification method of poplar (Populus x euramericana cv. Pannonia) without any chemicals or stains. Steaming was found to be a proper modification method to change its natural greyish-white colour to a more attractive brown tint. Black locust and beech timber (as initiators) were steamed together with poplar timber to intensify its colour change. Treatment temperatures were 90 °C; 100 °C; 110 °C and 120 °C. Maximum duration of steaming was 20 days (9 days at 120 °C). The colour change of sapwood and heartwood was monitored separately using the CIE Lab colour system. A wide range of hues was created using this treatment method ranging from the initial colour to brown depending on the steaming time and temperature. The presence of black locust or beech wood facilitated the colour change of poplar only above 100°C. In terms of the colour alteration of different wood parts, these initiator species were more effective in the heartwood part than in sapwood. Chromophore molecules generating the yellowness increase did not prove to be stable at 120 °C. Higher treatment temperature tends to partly degrade these molecules resulting in reduced yellowness values.
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Tom
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art. no. 1644--3985.368.04
Opis fizyczny
Bibliogr. 23 poz., wykr.
Twórcy
autor
- University of Sopron, Institute of Physics and Electrotechnics, HU-9400 Sopron, Hungary
autor
- University of Sopron, Institute of Physics and Electrotechnics, HU-9400 Sopron, Hungary
autor
- University of Sopron, Institute of Physics and Electrotechnics, HU-9400 Sopron, Hungary
Bibliografia
- Banadics E.A., Tolvaj L. [2019]: Colour modification of poplar wood by steaming for brown colour. European Journal of Wood and Wood Products 77: 717–719
- Chen Y., Tshabalala M.A., Gao J., Stark N.M., Fan Y. [2014]: Color and surface chemistry changes of extracted wood flour after heating at 120 °C. Wood Science and Technology 48:137–150. doi: https://doi.org/10.1007/s00226-022-01401-1
- Dzurenda L. [2013]: Modification of wood colour of Fagus sylvatica L to a brown-pink shade caused by thermal treatment. Wood Research 58 [3]: 475-482
- Dzurenda L. [2017]: Modification of wood colour of Acer platanoides L. to a brown-red shade caused by thermal treatment. Forestry and Wood Technology 98: 26–32
- Dzurenda L. [2018a]: Colour modification of robinia pseudoacacia l. during the processes of heat treatment with saturated water steam. Acta Facultatis Xylologiae Zvolen 60 [1]: 61−70
- Dzurenda L. [2018b]: The Shades of Color of Quercus robur L. Wood Obtained through the Processes of Thermal Treatment with Saturated Water Vapour. BioResources 13 [1]: 1525–1533
- Fan Y., Gao J., Chen Y. [2010]: Colour responses of black locust (Robinia pseudoacacia L.) to solvent extraction and heat treatment. Wood Science and Technology 44: 667–678. doi: https://doi.org/10.1007/s00226-009-0289-7
- Geffert A., Vybohová E., Geffertová J. [2017]: Characterization of the changes of colour and some wood components on the surface of steamed beech wood. Acta Facultatis Xylologiae Zvolen 59 [1]: 49−57
- Hrcka R. [2008]: Identification of discoloration of beech wood in CIElab space. Wood Research 53 [1]: 119–124
- Kaygin B., Koc K.H., Hiziroglu S. [2014]: Surface quality and hardness of eastern redcedar as function of steaming. Journal of Wood Science 60 [4]: 243–248
- Milić G., Todorović N., Popadić R. [2015]: Influence of steaming on drying quality and colour of beech timber, Glasnik Šumarskog Fakulteta 83–96
- Molnar S., [1998]: Die technischen Eigenschaften und hydrothermische Behandlung des Robinienholzes, In: Molnar S (ed.), Die Robinie Rohstoff für die Zukunft, Stiftung für die Holzwissenschaft, Budapest, pp 50–63
- Németh K., [1997]: Wood chemistry. Mezőgazdasági Szaktudás Kiadó, Budapest, pp. 72-73
- Straze A., Gorisek Z. [2008]: Research on colour variation of steamed Cherry wood (Prunus avium L.). Wood Research 52 [2]:77–90
- Timar M.C., Varodi A., Hacibektsoglu M., Campean M. [2016]: Color and FTIR analysis of chemical changes in beech wood (Fagus silvatica L.) after light steaming and heat treatment in two different environments. BioResources 11: 8325–8343
- Tjeerdsma B.F., Militz H. [2005]: Chemical changes in hydrothermal treated wood: FTIR analysis of combined hydrothermal and dry heat-treated wood. Holz als Roh- und Werkstof 63: 102–111
- Todaro L., Zuccaro L., Marra M., Basso B., Scopa A. [2012a]: Steaming effects on selected wood properties of Turkey oak by spectral analysis. Wood Science and Technology 46 [1–3]: 89–100
- Todaro L., Zanuttini R., Scopa A., Moretti N. [2012b]: Influence of combined hydro-thermal treatments on selected properties of Turkey oak (Quercus cerris L.) wood. Wood Science and Technology 46 [1–3]: 563–578
- Tolvaj L., Molnár S., Németh R., Varga D. [2010]: Colour modification of black locust depending on the steaming parameters. Wood Research 55 [2]: 81–88
- Tolvaj L., Németh R., Varga D., Molnár S. [2009]: Colour homogenisation of beech wood by steam treatment. Drewno 52 [181]: 5–17
- Tolvaj L., Papp G., Varga D., Lang E. [2012]: Effect of steaming on the colour change of softwoods. BioResources 7 [3]: 2799–2808
- Varga D., Van der Zee M.E. [2008]: Influence of steaming on selected wood properties of four hardwood species. Holz als Roh- und Werkstoff 66 [1]: 11–18
- Xin Y.L., Timar M.C., Varodi A.M., Sawyer G. [2017]: An investigation of accelerated temperature-induced ageing of four wood species: colour and FTIR. Wood Science and Technology 51: 357–378
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-be474977-5170-4454-8cc3-4ec19e7c5fc7