Wood Preservation and Improvement

Η.Βουλγαρίδη,Συντήρηση-Βελτίωση του Ξύλου.(Πανεπιστημιακές παραδόσεις-Σημειώσεις)

Από σχετικά εγχειρίδια,ελληνικά καί διεθνή επιστημονικά περιοδικά. Ενδεικτικά παρατίθεται ένα μέρος της βιβλιογραφίας που θα χρησιμοποιηθεί: • Ates, S.; Akyildiz, M.H.; Özdemir, H.; Gumuskaya, E., 2010: Technological and chemical properties of chestnut (Castanea sativa Mill.) wood after heat treatment. Romanian Biotechological Letters, 15 (1): 4949-4958. https://www.rombio.eu/rbl1vol15/lucr%205%20Saim%20Ates.pdf • Gonultas, O.; Candan, Z., 2018: Chemical characterization and FTIR spectroscopy of thermally compressed eucalyptus wood panels. Maderas ciencia y Tecnologia, 20(3): 431-442. DOI: 10.4067/S0718-221X2018005031301. • Βουλγαρίδης Η., 2006. Συντήρηση και Βελτίωση Ξύλου. Πανεπιστημιακές Παραδόσεις, ΑΠΘ. • Hill C., 2006. Wood Modification, Chemical, Thermal and other processes. John Wiley & Sons Ltd, The Átreium, Southern Gate, Chichester. • Ahajji, A.; Diouf, P.N.; Aloui, F.; Elbakali, I.; Perrin, D.; Merlin, A.; George, B., 2009: Influence of heat treatment on antioxidant properties and colour stability of beech and spruce wood and their extractives. Wood Science and Technology, 43: 69–83. https://link.springer.com/article/10.1007/s00226-008-0208-3. • Akgul, M.; Korkut, S., 2012. The effect of heat treatment on some chemical properties and colour in Scots pine and Uludağ fir wood. International Journal of Physical Sciences, 7(21): 2854-2859., DOI: 10.5897/IJPS12.281 • Φιλίππου Ι.,1986. Χημεία και χημική τεχνολογία του ξύλου. Πανεπιστημιακές παραδόσεις Σελ.357. Εκδόσεις Γιαχούδη-Γιαπούλη. Θεσσαλονίκη. • Γρηγορίου Α., 2001. Χημεία και χημική τεχνολογία του ξύλου. Σελ.286. Πανεπιστημιακές παραδόσεις, Υπηρεσία Δημοσιευμάτων, Αριστοτέλειο Πανεπιστήμιο Θεσσαλονίκης. • Φιλίππου Ι., 2014. Διαφάνειες Μαζικών Ελεύθερων Διαδικτυακών μαθημάτων (Online Opencourses) • Συλλογή δειγμάτων χημικών προϊόντων του καθηγητή κ. Γρηγορίου Α. • Μαζικά ελεύθερα Διαδυκτιακά μαθήματα (Opencourses) • Hillis W.E., 1984. High temperature and chemical effects on wood stability. Part 1. General considerations. Wood Sci. Technol. 18:281-293 (1984). • Johansson D., 2008. Heat Treatment of Solid Wood Effects on Absorption, Strength and Colour. Doctoral Thesis, Luleå University of Technology, 2008:53|p.142. • Johansson D., 2005. Strenght and Colour Response of Solid Wood to Heat Treatment. Licentiate thesis. Luleå University of Technology. 2005:93. • Kamperidou V., 2019. Biological durability of thermally and chemically modified black pine and poplar wood against basidiomycetes and mold action. Forests 10(12):1-18, DOI: 10.3390/f10121111. • Kamperidou V., Barboutis I. and V. Vasileiou, 2014. Influence of thermal treatment on mechanical strength of Scots Pine (Pinus sylvestris L.) wood. Wood Research 59 (2): 2014 373-378. • Kamperidou V. and I. Barboutis, 2012. Effect of thermal treatment on colour and hygroscopic properties of poplar wood. International Conference of Ambienta 2012, Zagreb. • Kartal S., Hwang W.J. and Y. Imamura, 2007. Water absorption of boron-treated and heat-modified wood. J Wood Sci (2007) 53:454–457. • Kocaefe D., Poncsak S. and Y. Boluk, 2008. Effect of thermal treatment on the chemical composition and mechanical properties of Birch and Aspen. BioResources 3(2), 517-537. • Kocaefe D., Poncsak S., Tang J. and M. Bouazara, 2010. Effect of heat treatment on the mechanical properties of North American jack pine: thermogravimetric study. J Mater Sci (2010) 45:681–687. • Wikberg, H.; Maunu, S., 2004: Characterisation of thermally modified hard- and softwoods by 13C CPMAS NMR. Carbohydrate Polymers, 58: 461-466, https://doi.org/10.1016/j.carbpol.2004.08.008 • Windeisen, E.; Strobel, C.; Wegener, G., 2007: Chemical changes during the production of thermotreated beech wood. Wood Science and Technology, 41(6): 523-536, https://link.springer.com/article/10.1007/s00226-007-0146-5 • Yao, C.; Yongming, F.; Jianmin, G.; Houkun, L., 2010: Coloring characteristics of in situ lignin during heat treatment. Wood Science and Technology, 46(1-3): 33-40, https://link.springer.com/article/10.1007/s00226-010-0388-5 • Yildiz, S.; Gezer, E.; Yildiz, U., 2006: Mechanical and chemical behavior of spruce wood modified by heat. Building and Environment, 41: 1762-1766. https://doi.org/10.1016/j.buildenv.2005.07.017 • Yildiz, S.; Gumuskaya, E., 2007: The effects of thermal modification on crystalline structure of cellulose in soft and hardwood. Building and Environment, 42: 62-67, https://doi.org/10.1016/j.buildenv.2005.07.009 • Kotilainen, R.; Toivannen, T.; Alén, R., 2000: FTIR monitoring of chemical changes in softwood during heating. Journal of Wood Chemistry and Technology, 20 (3): 307-320, https://doi.org/10.1080/02773810009349638. • Reinprecht L., 2016. Wood Deterioration, Protection and Maintenance. Wiley-Blackwell. DOI:10.1002/9781119106500 • Richardson, B.A. 2002. Wood Preservation. Second edition. E & FN SPON. • Tjeerdsma, B.F.; Militz, H., 2005: Chemical changes in hydrothermal treated wood: FTIR analysis of combined hydrothermal and dry heat-treated wood. Holz als Roh und Werkstoff, 63: 102-111. https://link.springer.com/article/10.1007/s00107-004-0532-8 • Tumen, I.; Aydemir, D.; Gündüz, G.; Uner, B.; Cetin, H., 2010: Changes in the chemical structure of thermally treated wood. Bioresources, 5(3): 1936-1944. https://ojs.cnr.ncsu.edu/index.php/BioRes/article/view/BioRes_05_3_1936_Tumen_AGUC_Changes_Chem_Struc_Thermal_Wood • Voulgaridis, E. 2004. Protection of wood in service from fungal and insect attack. (Unpublished Report) Aristotle University, Thessaloniki. • Voulgaridis, E. V., Banks, W. B. 1981. Degradation of wood during weathering in relation to water repellent long term effectiveness. J. Inst. Wood Sci. 9(2): 72-83. • Weiland, J.; Guyonnet, R., 2003: Study of chemical modifications and fungi degradation of thermally modified wood using DRIFT spectroscopy. Holz als Roh und Werkstoff, 61(3): 216-220. DOI: 10.1007/s00107-003-0364-y