Isıl İşlemli Kontrplaklarda Mekanik Özellikler
Year 2024,
, 267 - 275, 30.06.2024
Cengiz Güler
,
Ramazan Yeşildağ
Abstract
Kontrplak üretiminde yaygın olarak kullanılan Doğu Kayını (Fagus orientalis Lipsky) ve Titrek Kavak (Populus tiremula) odunlarından elde edilen 1.2 mm kalınlıktaki soyma kaplama levhalarına ısıl işlem uygulandıktan sonra 3 tabakalı kontrplak üretilmiştir. İki ağaç türü ve iki farklı tutkal kullanılarak üretilen kontrplak levhalarının çekme-makaslama direnci, eğilme direnci ve elastikiyet modülü özellikleri incelenmiştir. Elde edilen sonuçlar istatistiksel olarak değerlendirilmiştir Aynı koşullarda üretilmiş kontrol örneklerine göre değişim miktarları belirlenmiştir. Genel olarak ısıl işlem uygulanmış kontrplakların direnç özelliklerinde bir azalma meydana geldiği görülmüştür.
References
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Métiers, 10th European Conference on Wood Modification, France, 2022-04-25-
Proceedings of the Tenth European Conference on Wood,
Modificationhttp://hdl.handle.net/10985/21880.
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Ankara.
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of wood-based panels, TSE, Ankara.
Year 2024,
, 267 - 275, 30.06.2024
Cengiz Güler
,
Ramazan Yeşildağ
References
- Boonstra, M.J. (2008). A two-stage thermal modification of wood. Ph.D. dissertation in
cosupervision Ghent University and Universite Henry Poincare - Nancy 1, 297 p. ISBN
978-90-5989-210-1.
- Chen, Y. (2021). Developing soybean-based adhesives for heat-treated plywood, Doctor of
phılosophy, Department of Grain Science and Industry College of Agriculture Kansas
State Unıversıty, Manhattan, Kansas-USA.
- Chotikhun, A. Kittijaruwattana, J. Lee, S.H. Salca, E.A. Arsyad, W.O.M. Hadi, Y.S. Neimsuwan, & T. Hiziroglu, S. (2023). Characterization of plywood made from
heat‑treated rubberwood veneers bonded with melamine urea formaldehyde resin,
Journal of Wood Science, 69, 23.
- Grinins, J. Irbe, I. Andersons, B. Andersone, I. Meija-Feldmane, A. Janberga, A. Pavlovics, G.
& Sansonetti, E. (2016). Thermo-hydro treated (THT) birch plywood with improved
service properties, International Wood Products Journal, 7(4), 181-187.
DOI 10.1080/20426445.2016.1212963.
- Karakaş, G. (2008). Ahlat (Pyrus elaeagnifolia Pall.) odununun fiziksel ve mekanik özellikleri
üzerinde ısıl işlemin etkisi, Yüksek Lisans Tezi, Zonguldak Karaelmas Üniversitesi, Fen
Bilimleri Enstitüsü, Zonguldak.
- Krivorotova, A.I. Orlov, A.A. Korchuk, Y.A. & Popov, A.A. (2021). Research of physical and
mechanical properties of plywood based on thermally modified veneer, IOP Conference
Series, Mater. Sci. Eng., doi:10.1088/1757-899X/1181/1/012005.
- Mayes, D. & Oksanen, O. (2002). ThermoWood Handbook, Finnforest, Finland.
- Matthew, D.A. Brian, K.B. & Patrick, K.D. (2014). Mechanical and Physical
Properties of
Thermally Modified Plywood and Oriented Strand Board Panels, Forest Products
Journal, 64 (7-8), 281–289.
- Marcon, B. Candelier, K. Viguier, J, Pignolet, L. Gartili, A. Thévenon, M.F. Collet R. &
Denaud, L. (2022). Durability of Heat Treated Massive Poplar Plywood, Science Arts &
Métiers, 10th European Conference on Wood Modification, France, 2022-04-25-
Proceedings of the Tenth European Conference on Wood,
Modificationhttp://hdl.handle.net/10985/21880.
- TS 642 ISO 554 (1997). Standard atmospheres for conditioning and/or testing, TSE Ankara.
- TS EN 314-1 (1999). Determining the bonding quality of veneer plywood by shear testing. TSE
Ankara.
- TS EN 310 (1999). Determining the modulus of elasticity in bending and the bending strength
of wood-based panels, TSE, Ankara.