TY - JOUR TT - Effects of Impregnation with Tanalith-E on the Compression Strength of Some Woods AU - Keskin, Hakan AU - Dağlıoğlu, Nihat PY - 2017 DA - September DO - 10.2339/politeknik.339404 JF - Politeknik Dergisi PB - Gazi Üniversitesi WT - DergiPark SN - 2147-9429 SP - 711 EP - 716 VL - 20 IS - 3 KW - Compression strength KW - Tanalith E KW - impregnation KW - woods N2 - This study wasperformed to determine the effectsof impregnation with Tanalith-E on compression strengths of Oriental beech (Fagus orientalis Lipsky), European oak (Quercus petraea Liebl.), Black walnut (Junglansnigra Lipsky), Lombardy poplar (Populus nigra Lipsky), Ash (Fraxinus exelsior Lipsky) and Scotch pine (Pinus sylvestris Lipsky) woods. For this aim, the wood samples wereprepared according to TS 345 and impregnated with Tanalith-E by the method ofthe vacuum according to ASTM D 1413 and producers’ definition. Afterimpregnation process, compressionstrength was measured according to TS 2595. Consequently, compressionstrengths of wood un-impregnated were found higher (approximately 6.63%) thanimpregnated with Tanalith-E wood materials. Accordingly, the highest values ofcompression strengths were obtained in impregnated Oriental beech and ashwoods, whereas the lowest values were obtained in the Lombardy poplar wood.  CR - 1. Ors Y., Keskin H., “Ağaç Malzeme Teknolojisi”, Gazi Üniversitesi Yayın no: 2000/352, 1-6, 144-155, Gazi Kitabevi, Ankara (2008). CR - 2. Atar M., “Effects of ımpregnation with imersol-aqua on the bending strength of some wood materials”, Materials & Design, 29(9): 1707-1712, (2008). CR - 3. Kollman F., “Die eigenschaftanderung von gruben holz nach schutzsalzimpragnie-rung, Forschungsber”, Des Landes Nordhrhein, Westfalen, Germany, 54: (1959). CR - 4. Stabnikov V.M., “Puti uviliczenia sroka sluschby dreviesinyw konstrukcjach”, Leningrad, 19–25, (1957). CR - 5. Wazny J., “Investigations of the influence of wood preservatives on strength”, Dreviesiny Sreda, 3: 181, (1973). CR - 6. Bentsen B.A., “Mechanical properties of longleaf pine treated waterborne salt preservatives”, USDA For Serv., 2: 434, (1984). CR - 7. Temiz A., “Physcal and mechanical properties of wood–polymer composites prepared from alder wood (Alnus glutinosa Lipsky)”, 32nd Annual Meeting Nara, Japan, (2001). CR - 8. Tetjamer L., “Methoden und resultate der prufung schweizerischen bahnholzer, material pru fungsaf”, schweizerischen polytechnikum.Zurich: Paul Paray Verlac, (1986). CR - 9. Keskin H., Atar M., Togay A., “Impacts of impregnation with imersol-aqua on the compression strength of some solid wood materials”, Construction and Building Materials, 22(7): 1402-1408, (2008). CR - 10. Hemel-Hickson’s Timber Impregnation Co. (GB), Into the 21st. century, “Imersol-Aqua brochure”, Datasheet, 4(2): 6214, (2000). CR - 11. TS 2595, “Odunun Liflere Paralel Doğrultuda Basınç Dayanımının Tayini”, TSE, Ankara (1977). CR - 12. ASTM D 1413-76, “Standard Test Method of Testing Wood Preservatives by Laboratory Soil Blocks Cultures”, ASTM Standards, USA, (1976). CR - 13. TS 344, “Ahşap Koruma Genel Kuralları”, TSE, Ankara, (1981). CR - 14. TS 345, “Ahşap Emprenye Maddeleri Etkilerinin Muayene Metotları, TSE, Ankara, (1974). CR - 15. Ors Y., Atar M., Keskin, H., Yavuzcan H.G., “Impacts of impregnation with imersol-aqua on the modulus of elasticity in bending”, Journal of Applied Polymer Science, 99(6): 3210, (2006). UR - https://doi.org/10.2339/politeknik.339404 L1 - https://dergipark.org.tr/tr/download/article-file/343286 ER -