[ASTM E69-02 (2002): Standard Test Method for Combustible Properties of Treated Wood by the Fire-Tube Apparatus, ASTM International, West Conshohocken, PA. www.astm.org]Search in Google Scholar
[Can A., Grześkowiak W., Özlüsoylu İ. (2018): Improving the Fire Resistance of Heat Treated Wood by Using Environment-Friendly Substance. Journal of Bartin Faculty of Forestry, 20(3): 519–524.]Search in Google Scholar
[Can A., Özlüsoylu İ., Grześkowiak W., Sözen E. (2017): Improvement of Fire Performance of Impregnated Wood with Copper Based Chemicals. Proceedings of the 28th International Conference on Wood Science and Technology 2017, Implementation of Wood Science in Woodworking Sector, Zagreb 7–8 December 2017: 21–27.]Search in Google Scholar
[Chapple S., Anandjiwala R. (2010): Flammability of Natural Fiber-reinforced Composites and Strategies for Fire Retardancy: A Review. Journal of Thermoplastic Composite Materials, published online 5 January 2010. DOI: 10.1177/089270570935633810.1177/0892705709356338]Search in Google Scholar
[Chung W.-T, Lei M.-Y., Tsai K.-C. (2014): Evaluating current fire test methods for determining flammability performance of ceiling materials. Journal of Marine Science and Technology (Taiwan) 22: 196-203. 10.6119/JMST-013-0311-1.]Search in Google Scholar
[Fanfarová A., Osvaldová L., Gašpercová S. (2016): Testing of Fire Retardants. Applied Mechanics and Materials. 861. 72–79. 10.4028/www.scientific.net/AMM.861.72.10.4028/www.scientific.net/AMM.861.72]Search in Google Scholar
[Fouladi M., Namasivayam S.N., Chong C.H., Xin P.Z., Xin S.Y.P., Ghassem M., Najafabadi H.S. (2015): Enhancement of coir fiber fire retardant property. Journal of Engineering Science and Technology, Special Issue on SOMCHE 2014 & RSCE 2014 Conference, January 2015: 61–72.]Search in Google Scholar
[Goldstein I.S. (1973): Degradation and Protection of Wood from Thermal Attack. In: Wood Deterioration and its Prevention by Preservative treatment Vol. 1, Degradation and Protection of Wood, D.P. Nicholas ed. Syracuse Univ. Press, Syracuse N.Y.]Search in Google Scholar
[Grześkowiak W.Ł. (2015): Guanidine carbonate – component supporting fire retardance in new preservatives for wood and wood-based materials. MC Meeting, WG meeting, Bio-based Building Products and Fire Safe Design of Buildings – Recent Developments. Book of abstracts, Barcelona, Spain 20–21 April 2015: 51–54.]Search in Google Scholar
[Grześkowiak W.Ł. (2017): Effectiveness of new wood fire retardants using a cone calorimeter. Journal of Fire Sciences 35(6): 565–576. DOI: 10.1177/073490411773746410.1177/0734904117737464]Search in Google Scholar
[Grześkowiak W.Ł., Cofta G., Wiśniewski T. (2011): Działanie promieniowania cieplnego na materiały drewnopochodne stosowane w budownictwie zabezpieczone preparatami ogniochronnymi [Action of thermal radiation on wood-based materials used in buildings protected with fire retardants]. Polskie Stowarzyszenie Mykologów Budownictwa – Seria: Monografie nr 7, Tom XI, Wrocław: 27–32]Search in Google Scholar
[Grześkowiak W.Ł., Moliński K. (2019): Effect of heating of the protected wood and the time of storage of the preparation on fire protection effectiveness. 49 Międzynarodowe Colloquium Biometryczne, Siedlce 8 – 12 września: 24–26.]Search in Google Scholar
[Le Van S.L. (1989): Thermal degradation. In: Schniewind, Arnold ed., Concise Encyclopedia of Wood and Wood Based Materials, 1st edition, Elmsford, N.Y., Pergamon Press 1989: 271–273.]Search in Google Scholar
[Lowden L.A., Hull T.R. (2013) Flammability behaviour of wood and a review of the methods for its reduction. Fire Science Reviews, 2:4.10.1186/2193-0414-2-4]Search in Google Scholar
[Marney D.C.O., Russell L.J., Humphrey D.G. (2005): Fire Retardants for Timber Applications – a Literature Review Building Confidence in Timber: APEC Fire Safe Use of Timber in Construction Seminar May 24–26, 2005 Wellington, N.Z.]Search in Google Scholar
[Oberley W.J. (1991): Fire retardants and products produced therewith related application. World Intellectual Property Organization 1991, WO 91/00327.]Search in Google Scholar
[Park H.-J., Wen M., Cheon S.-H., Hwang J.-W., Oh S.-W. (2012): Flame retardant performance of wood treated with flame retardant chemicals. J. Korean Wood Sci & Tech. 40(5): 311–318.10.5658/WOOD.2012.40.5.311]Search in Google Scholar
[Sulaiha A., Datin Ir. Dr. Siti Aslina H., Mohd Zahirasri M.T. (2019): Fire Test and Effects of Fire Retardant on the Natural Ability of Timber: A Review. Pertanika Journal of Science and Technology 27 (2): 867–895.]Search in Google Scholar
[White R.H., Dietenberger M.A. (2001): Wood products: thermal degradation and fire. In: Encyclopedia of Materials: Science and Technology, Editors-in-Chief: K.H. Jürgen Buschow, Robert W. Cahn, Merton C. Flemings, Bernard Ilschner, Edward J. Kramer, Subhash Mahajan, and Patrick Veyssière, Elsevier Science Ltd., pp. 9712–9716.10.1016/B0-08-043152-6/01763-0]Search in Google Scholar
[Winandy J.E., Le Van S.L., Schaffer E.L., Lee P.W. (1988): Effect of fire-retardant treatment and redrying on the mechanical properties of Douglas-Fir and Aspen plywood. Res. Pap. FPL-RP-485. Madison, WI: U.S. Departament of Agriculture, Forest Service, Forest Products Laboratory.]Search in Google Scholar
[Zeinali D., Koalitis D., Schmid J. (2018): Guide for Obtaining Data from Reaction to Fire Tests, ETH Zürich, Switzerland, 2018. DOI 10.3929/ethz-b-000319575 http://www.costfp1404.ethz.ch/publications.]Search in Google Scholar