Strengthening the Retention Amount and Leaching Resistance of Boron Compounds Used as Impregnation Material
Year 2021,
, 103 - 112, 01.03.2021
Taner Aşçı
,
Hakan Keskin
Abstract
This study is carried out in order to increase the retention performance of synthetic boron compounds. For this purpose, the test samples prepared from Scots pine (Pinus sylvestris Lipsky), European Oak (Quercus petraea Liebl.) and Oriental Beech (Fagus orientalis Lipsky) woods and impregnated with dipping method in accordance with the principles of TS 6193 EN 84 by using 12 different compositions of developed impregnation material. The impregnated test samples are tested according to the same standards’ principles. It has been found that the retention amount and leaching resistance of the impregnation materials approximately 2 times higher than the ones which are impregnated with boron compounds depending on kind of wood. This impregnation material is more environmentally friendly than other toxic impregnation materials which are harmful for human health such as CCA beside its preservation feature against biotic and abiotic factors through boron compounds content. Moreoever the wood materials impregnated with developed impregnation material can be recycled comparatively more easily and in a healthy way at the end of its economical lifetime.
Supporting Institution
Gazi Üniversitesi Bilimsel Araştırma Projeleri (BAP)
Project Number
07/2012-40
Thanks
Çalışmada Bilimsel Araştırma Projeleri yoluyla deneysel çalışmayı destekleyen Gazi Üniversitesine Teşekkürü bir borç bilirim.
References
- [1] M.P. Dieter., Toxicity and carcinogenecity studies of boric acid in male and female B6C3F1 mice. Environment Health Perspectives (1994) 102 (Suppl 7): 93-97. https://doi: 10.1289/ehp.94102s793
- [2] ECETOC (European Centre for Ecotoxicology and Toxicology of Chemicals), Reproductive and general toxicology of some ınorganic borates and risk assessment for human beings. Technical Report-TR063. 63; 71-72, 1995
- [3] Kartal, S.N., Imamura, Y., Usage of boron compound as impregnation materials in wood and composites. 3rd International Boron Symposium, 333, Eskişehir, 2004
- [4] Turkez, H., Genetical and Biochemical impacts of some boron compounds on peripheral human blood in in-vitro conditions. Ph.D. Thesis, Atatürk University, Institute of Applied Science, 161-170, 2007.
- [5] E. Baysal, Fire features of Scots pine wood impregnated with boron compounds and natural tanning materials. Erciyes University, Journal of Applied Science Institute, (2003) 59-61
- [6] C. Tascioglu, M.A. Tufan, General evaluation on recycling methods of impregnated wood materials out of usage life. Artvin Çoruh University, Journal of Faculty of Forest, (2011) 12(1): 86-91
- [7] A. Temiz, E.D. Gezer, U.C. Yildiz, S. Yildiz, Combustion properties of alder gaertn. Subsp, barbata and southern pine wood treated with boron compounds. Construction and Building Materials, (2008) 22: 2165–2169, https://doi.org/10.1016/j.conbuildmat.2007. 08.011
- [8] E. Baysal, M.K. Yalinkilic, M. Altinok, A. Sonmez, H. Peker, M. Colak, Some physical, biological, mechanical, and fire properties of wood polymer composite (WPC) pretreated with boric acid and borax mixture. Construction and Building Materials, (2007) 21: 1879-1885, https://doi.org/10.1016/j.conbuildmat.2006.05.026
- [9] H. Peker, Impacts of impregnation materials on hygroscopisity of eucaliptus wood. Journal of Technology, (2008) 11(1): 25-32
- [10] E. Baysal, A. Sönmez, M. Çolak, H. Toker, Amount of leachant and water absorption levels of wood treated with borates and water repellents, Bioresource Technology (2006) 97: 2271-2279, https://doi.org/10.1016/j.biortech.2005.10.044
- [11] A.A. Var, E. Oktem, U.C. Yildiz, Impacts of dry-heat on macroscopic properties of wood materials impregnated with colophony, Süleyman Demirel University, Journal of Faculty of Forest, (2000) 1(1): 75-86
- [12] Altun, S., Leaching resistance of fire-reterdant impregnation materials in native kinds of wood. Ph.D. Thesis, Gazi University, Institute of Applied Science, 100-106, 2008
- [13] Yalınkılıc, M.K., Yusuf, S., Yoshimura, T., Takahashi, M., Tsunoda, K., Effect of vapor phase formalization of boric acid treated wood on boron leachability and biological resistance, 3rd Pacific Rim bio-based composites symposium; 2–5 December, 544–551, 1996
- [14] Lloyd, J.D., D.J. Dickinson, R.J. Murphy. The probable mechanism of action of boric acid and borates as wood preservatives. The International Research Group on Wood Preservation, IRG/WP 1450, 1990.
- [15] D.N. Obanda, T.F. Shupe, M. Barnes, Reducing leaching of boron-based wood preservatives, A review of research. Bioresource Technology, (2007) 99 (15); 7312-7322, https://doi.org/10.1016/j.biortech.2007.12.077
- [16] Under, A., Schniewind, A.P., Unger, W., Conservation of wood articrafts; A Handbook, Published by Springer, 2001
- [17] Aydin, F., Features and control of water used in hospitals, 7th National sterilization disinfection congress, 466, 2011
- [18] TS 6193 EN 84, Wood preservatives- Preperation of impregnated wood to biological experiments by accelerated oldering method – Leaching Method, TSE, Ankara, 2014
- [19] H. Keskin, M. Atar, A. Togay, Impacts of impregnation with Imersol-Aqua on the compression strength of some solid wood materials, Construction and Building Materials, (2008) 22; 1402–1408, https://doi.org/10.1016/j.conbuildmat.2007.04.011
- [20] B. Lesar, P. Kralj, M. Humar, Montan wax improves performance of boron-based wood preservatives, International Biodeterioration & Biodegradation, (2009) 63; 306–310, https://doi.org/10.1016/j.ibiod.2008.10.006
Strengthening the Retention Amount and Leaching Resistance of Boron Compounds Used as Impregnation Material
Year 2021,
, 103 - 112, 01.03.2021
Taner Aşçı
,
Hakan Keskin
Abstract
This study is carried out in order to increase the retention performance of synthetic boron compounds. For this purpose, the test samples prepared from Scots pine (Pinus sylvestris Lipsky), European oak (Quercus petraea Liebl.) and Oriental Beech (Fagus orientalis Lipsky) woods and impregnated with dipping method in accordance with the principles of TS 6193 EN 84 by using 12 different composisiton of Developed Impregnation Liquid (DIL). The impregnated test materials are tested according to TS 6193 EN 84 principles. It has been found that the retention amount and leaching resistance of the DIL is approximately 2 times higher than the ones which are impregnated with boron compounds. DIL is more environmentally friendly than other toxic impregnation materials which are harmful for human health such as CCA beside its preservation feature against biotic and abiotic factors through boron compounds content. Moreoever the wood materials impregnated with DIL can be recycled comparatively more easily and in a healthy way at the end of economical lifetime.
Project Number
07/2012-40
References
- [1] M.P. Dieter., Toxicity and carcinogenecity studies of boric acid in male and female B6C3F1 mice. Environment Health Perspectives (1994) 102 (Suppl 7): 93-97. https://doi: 10.1289/ehp.94102s793
- [2] ECETOC (European Centre for Ecotoxicology and Toxicology of Chemicals), Reproductive and general toxicology of some ınorganic borates and risk assessment for human beings. Technical Report-TR063. 63; 71-72, 1995
- [3] Kartal, S.N., Imamura, Y., Usage of boron compound as impregnation materials in wood and composites. 3rd International Boron Symposium, 333, Eskişehir, 2004
- [4] Turkez, H., Genetical and Biochemical impacts of some boron compounds on peripheral human blood in in-vitro conditions. Ph.D. Thesis, Atatürk University, Institute of Applied Science, 161-170, 2007.
- [5] E. Baysal, Fire features of Scots pine wood impregnated with boron compounds and natural tanning materials. Erciyes University, Journal of Applied Science Institute, (2003) 59-61
- [6] C. Tascioglu, M.A. Tufan, General evaluation on recycling methods of impregnated wood materials out of usage life. Artvin Çoruh University, Journal of Faculty of Forest, (2011) 12(1): 86-91
- [7] A. Temiz, E.D. Gezer, U.C. Yildiz, S. Yildiz, Combustion properties of alder gaertn. Subsp, barbata and southern pine wood treated with boron compounds. Construction and Building Materials, (2008) 22: 2165–2169, https://doi.org/10.1016/j.conbuildmat.2007. 08.011
- [8] E. Baysal, M.K. Yalinkilic, M. Altinok, A. Sonmez, H. Peker, M. Colak, Some physical, biological, mechanical, and fire properties of wood polymer composite (WPC) pretreated with boric acid and borax mixture. Construction and Building Materials, (2007) 21: 1879-1885, https://doi.org/10.1016/j.conbuildmat.2006.05.026
- [9] H. Peker, Impacts of impregnation materials on hygroscopisity of eucaliptus wood. Journal of Technology, (2008) 11(1): 25-32
- [10] E. Baysal, A. Sönmez, M. Çolak, H. Toker, Amount of leachant and water absorption levels of wood treated with borates and water repellents, Bioresource Technology (2006) 97: 2271-2279, https://doi.org/10.1016/j.biortech.2005.10.044
- [11] A.A. Var, E. Oktem, U.C. Yildiz, Impacts of dry-heat on macroscopic properties of wood materials impregnated with colophony, Süleyman Demirel University, Journal of Faculty of Forest, (2000) 1(1): 75-86
- [12] Altun, S., Leaching resistance of fire-reterdant impregnation materials in native kinds of wood. Ph.D. Thesis, Gazi University, Institute of Applied Science, 100-106, 2008
- [13] Yalınkılıc, M.K., Yusuf, S., Yoshimura, T., Takahashi, M., Tsunoda, K., Effect of vapor phase formalization of boric acid treated wood on boron leachability and biological resistance, 3rd Pacific Rim bio-based composites symposium; 2–5 December, 544–551, 1996
- [14] Lloyd, J.D., D.J. Dickinson, R.J. Murphy. The probable mechanism of action of boric acid and borates as wood preservatives. The International Research Group on Wood Preservation, IRG/WP 1450, 1990.
- [15] D.N. Obanda, T.F. Shupe, M. Barnes, Reducing leaching of boron-based wood preservatives, A review of research. Bioresource Technology, (2007) 99 (15); 7312-7322, https://doi.org/10.1016/j.biortech.2007.12.077
- [16] Under, A., Schniewind, A.P., Unger, W., Conservation of wood articrafts; A Handbook, Published by Springer, 2001
- [17] Aydin, F., Features and control of water used in hospitals, 7th National sterilization disinfection congress, 466, 2011
- [18] TS 6193 EN 84, Wood preservatives- Preperation of impregnated wood to biological experiments by accelerated oldering method – Leaching Method, TSE, Ankara, 2014
- [19] H. Keskin, M. Atar, A. Togay, Impacts of impregnation with Imersol-Aqua on the compression strength of some solid wood materials, Construction and Building Materials, (2008) 22; 1402–1408, https://doi.org/10.1016/j.conbuildmat.2007.04.011
- [20] B. Lesar, P. Kralj, M. Humar, Montan wax improves performance of boron-based wood preservatives, International Biodeterioration & Biodegradation, (2009) 63; 306–310, https://doi.org/10.1016/j.ibiod.2008.10.006