MASİF AHŞABIN DEĞERİNİN YENİDEN ARTMASI
Teknolojinin gelişimiyle birlikte metal, plastik, lif-yonga levha gibi ahşap levha esaslı ve ahşap dışı ürünlerin çeşitliliğinin artmasıyla, sayısız olumlu özelliği bulunan masif ahşabın popülerliği azalmıştır. Ancak bu malzemeye olan ilgi, ekolojik farkındalık ile son yıllarda farklı tasarımlarla üretilmeye başlanan doğal masif ahşap ürünlerle artmaya başlamıştır. Doğal olarak mobilya endüstrisinin bu artışa katkısı yadsınamaz.Bu çalışma kapsamında masif ahşabın artan değeri, önceleri kusurlu veya atık olarak nitelendirilen doğal masif ahşap ürünlerin daha çok son kullanıcıya hitap eden mobilya endüstrisinin etkisi ile açıklanmaya çalışılacaktır. Bununla birlikte artan ekolojik yaşam bilinci, son kullanıcının masif ahşap gibi doğal malzemelere yönelmesine sebep olmuştur. Son yıllarda geliştirilen ve masif ahşabın birçok özelliğini katkı maddesi kullanılmadan arttıran yüksek frekans-vakum kombinasyonlu kurutma ve ısıl işlem gibi koruma teknikleri de masif ahşabın kullanım alanlarını arttırmaya yönelik olumlu katkı yapmıştır.
REINCREASING VALUE OF SOLID WOOD
Popularity of solid wood which has many positive features, decreased due to increasing popularity of both wood-based products and non-wood products such as metal, plastic, fiber-particle board etc. with technological improvement. However interest to solid wood material increased with ecological awareness and featured natural solid wood product designs in recent years. Naturally share of furniture industry can not be ruled out to effect of the increment. In this study, increasing value of solid wood will be tried to explain with natural solid wood products which were previously evaluated defective or waste and effect of furniture industry appealing more to end-user. However increasing natural-life awareness caused to orient end-users towards to natural products like solid wood. In recent years the developed technologies such as high frequency-vacuum drying and thermal-treatment technologies contributed positively by reason of adding value to solid wood with increasing features without using addictives, as a result of that these techniques expanded usage area of solid wood.
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- Kantay, R., "Wood Drying and Steaming", Forestry Training and Culture Foundation, Publication no: 6, 1993.
- Ünsal, Ö., "Time Loses And Its Economical Analysis In Industrial Wood Drying Applications", 150th year of Forestry Education in Turkey, International Symposium, 17 –19 October 2007 Harbiye Military Museum-İstanbul,
- Kral Ahşap Ürünleri Kurutma Makina İmalatı San. ve Tic. Ltd. Şti., www.kingdryer.com (It was supported within the scope of Tübitak, Kosgeb ve San-Tez projects).
- Burdurlu, E., "The Book of Wood Industry and Drying", Bizim Büro Print House, Ankara, 1995.
- Güler, C., Ünsal, Ö., Dilek, B., "High Frequence and Its Economical Analysis in Industrial Wood Drying", II. National Furniture Congress, Denizli, 11-13 April 2013.
- Dagbro, O., Tornianen, P., Karlsson, O., and Morén T., “Colour responses from wood, thermally modified in superheated steam and pressurized steam atmospheres,” Wood Mat. Sci. Eng. 5, 211-219, 2010.
- Torvinen, P., "Thermal modification of Sitka spruce", Faculty of Technology, Ph.D. Thesis, Lahti University Of Applied Sciences, 2010.
- Hill, C.A.S., "Wood modification: Chemical, thermal and other processes". John Wiley & Sons, Chichester, UK, 2006.
- Gonzalez de Cademartori, P.H.; Schneid, E.; Gatto,
- D.A., Martins Stangerlin, D., & Beltrame, R., "Thermal modification of Eucalyptus grandis wood: variation of colorimetric parameters". Maderas. Ciencia y tecnología, 15(1), 57-64, 2013.
- Sehlstedt-Persson, M., "Colour responses to heat- treatment of extractives and sap from pine and spruce". In: 8th International IUFRO Wood Drying Conferernce, Brasov, Romania, 459-464, 2003.
- Sundqvist, B., "Colour changes and acid formation in wood during heating". Ph.D. Thesis, Lulea University of Technology, Lulea, Sweden. 154p. 2004.
- Mcdonald, A.; Fernandez, M.; Kreber, B., "Chemical and UV–VIS spectroscopic study on kiln brown stain formation in Radiate pine". The 9th International Symposium of Wood and Pulping Chemistry, Montreal, Canada. 1-5, 1997.
- Tjeerdsma, B.; Boonstra, M.; Pizzi, A.; Telkely, P.; Militiz, H., "Characterization of thermally modified wood: molecular reasons for wood performance improvement". Holz Roh-Werkstoff, 56(3):149-153. 1998.
- Mitsui, K.; Takada, H.; Sugiyama, M.; Hasegawas, R., "Changes in the properties of light-irradiated wood with heat treatment: Part 1. Effect of treatment conditions on the change in colour". Holzforschung 55(6):601-605. 2001.
- Bekhta, P.; Niemz, P., "Effect of high temperature on the change in colour, dimensional stability and mechanical properties of spruce wood". Holzforschung 57(5): 539– 546. 2003.
- Bekhta, P.; Niemz, P., "Effect of high temperature on the change in colour, dimensional stability and mechanical properties of spruce wood". Holzforschung 57(5): 539–546. 2003.
- NFC, III. National Furniture Congress, Selçuk University, Konya, Turkey, 10-12 April 2015.
- IFC, II. International Furniture Congress, Sıtkı Koçman University, Muğla, Turkey, 13-15 October 2016.