Characteristics of Medium Density Fiberboards for Furniture Production and Interior Application

Violeta Jakimovska Popovska, Borche Iliev, Ivo Spiroski

Abstract


BACKGROUND: The paper analyzes the properties of medium density fiberboards (MDF) intended for furniture production and interior application. Because MDF panels are one of the mostly used wood-based panels in furniture production sector in the Republic of Macedonia it is important to know and understand their basic physical and mechanical properties.

AIM: For better understanding of MDF panels and their proper end use by the furniture constructors and designers, physical and mechanical properties of MDF panels present in the market are tested.

MATERIALS AND METHODS: Commercially produced MDF panels taken from one company from wood-based panel market were tested. Evaluation of the quality of the panels was made on the basis of the obtained results for the physical and mechanical properties of the panels. Properties of MDF were tested according to the national MKS standards and European norms.

RESULTS: Tested MDF panels present on our market are characterized by good physical and mechanical properties that meet the requirements of the standards for MDF for use in dry conditions including furniture production and interior applications.

CONCLUSIONS: It is recommended to avoid application of these MDF panels in high humidity conditions for a longer exploitation period. For this kind of applications, such as bathroom areas, the furniture constructors and interior designers should consider use of MDF.H type of panel for application in high humidity conditions, which will provide good dimensional stability of the products during whole exploitation period.

Keywords


wood-based panels; medium density fiberboards (MDF); physical properties; mechanical properties; furniture production

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References


Wood Panel Industries federation, TRADA and National Panel Products Division (2014). Panel Guide Version 4, Annex 2E - Dry process fiberboards (MDF) (http://www.wpif.org.uk/uploads/PanelGuide/PanelGuide_2014_Annex2E.pdf).

Ayrilmis, N. and Winandy, JE. (2009). Effects of Post Heat-Treatment on Surface Characteristics and Adhesive Bonding Performance of Medium Density Fiberboard. Materials and Manufacturing Processes, 24: 594–599.

http://dx.doi.org/10.1080/10426910902748032

Akgül, M., Ayrilims, N., Çamhbel, O, Korkut, S. (2013). Potential utilization of burned wood in manufacture of medium density fiberboard. Journal of Material Cycles and Waste Management Vol. 15 (2): 195-201.

http://dx.doi.org/10.1007/s10163-012-0108-3

Stark NM. Cai Z, Carll, C. (2010). Wood handbook - Wood as engineering material, Chapter 11: Wood-based composite materials. USDA, Forest Product Laboratory, General Technical Report-190: 11-1 - 11-28.

Jarusombuti, S., Ayrilmis, N., Bauchongkol, P., Fueangvivat, V. (2010). Surface characteristics and overlaying properties of MDF panels made from thermally treated rubberwood fibers. BioResources 5 (2): 968-978.

Jambreković, V., Španić, N., Jambreković, T., Iliev, B. (2011). Impact of MDF board side plane instability on lacquer film crack appearance. Drvna industrija 62 (1): 137-146.

EN 622–1. 2003. Fibreboards. Specifications. General requirements.

EN 622-5: 2009. Fibreboards. Specifications. Requirements for dry process boards (MDF).

Macedonian standards: MKS D.A8.085, MKS D.A8.083, MKS D.A8.084.

Janka G. Die Harte des Holzes. Vienna, Austria: Wilhelm Frick, 1906.

Cai Z, Ross RJ (2010). Wood handbook - Wood as engineering material, Chapter 12: Mechanical properties of wood-based composite materials. USDA, Forest Product Laboratory, General Technical Report-190: 12-1 - 12-12.

Ayrilmis, N., Laufenberg, T.L., Winandy, J.E. (2009). Dimensional stability and creep behavior of heated treated medium density fiberboard. European Journal of Wood and Wood Products 67: 287-295.

http://dx.doi.org/10.1007/s00107-009-0311-7

Ayrilmis, N., Jarusombuti, S., Fueangvivat, V., Bauchongkol, P. (2011). Effects of thermal treatment of rubberwood fibres on physical and mechanical properties of medium density fibreboard. Journal of Tropical Forest Science 23(1): 10–16.

Norvydas, V. and Minelga, D. (2006): Strength and stiffness properties of furniture panels covered with different coatings. Materials Science 12 (4): 328-332.




DOI: http://dx.doi.org/10.3889/seejad.2016.10013

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Copyright (c) 2016 Violeta Jakimovska Popovska, Borche Iliev, Ivo Spiroski

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Published by: Id Design 2012/DOOEL Skopje, Republic of Macedonia