[1. KAČÍKOVÁ, D. 2012. Alterations of selected characteristics of oak and poplar wood after thermal loading by radiation sources. In: Wood and Fire Safety: 7th Scientific International Conference, pp. 107-110. ISBN 978-80-87427-23-1]Search in Google Scholar
[2. DRYSDALE, D. An Introduction to Fire Dynamics. 1990. John Wiley and Sons, A Wiley – Interscience Publication, pp. 253-277. ISBN: 0-471-90613-1]Search in Google Scholar
[3. KOŠÍK, M. 1986. Polymérne materiály a ich požiarna ochrana. (Polymeric materials and their fire protection.) Bratislava: ALFA, 90 p.]Search in Google Scholar
[4. BABRAUSKAS, V. 2003. Ignition Handbook. Chapter 7. Ignition of common solids. London: Fire Science Publishers and Society of Fire Protection Engineers, pp. 234-339. ISBN 0-9728111-3-3]Search in Google Scholar
[5. Di NENNO, P. et al. 1995. The SFPE Handbook of Fire Protection Engineering. Fire Dynamics. Quincy: National Fire Protection Association, 227 pp. ISBN 0-87765-354-2]Search in Google Scholar
[6. TROITZSCH, J. 1990. Plastics Flammability Handbook: Principles, Regulationos and Approval. Munchen/Wien: Carl Hanser Verlag 517 pp. N.Y. ISBN: 3-446-15156-7]Search in Google Scholar
[7. ISO 9705:1993. Fire Tests. Full Scale Room Test for Surface Products.]Search in Google Scholar
[8. BABRAUSKAS, V. 1992. From Bunsen Burner to Heat Release Rate Calorimeter. In: Heat Release in Fires: Chapter 2. London and New York: Elsevier Applied Science, pp 7-29. ISBN 1-85166-794-6]Search in Google Scholar
[9. BABRAUSKAS, V., PEACOCK, R. D. Heat Release Rate: The Single most important variable in Fire Hazard. Fire Safety Journal,18(3), pp. 255-272.10.1016/0379-7112(92)90019-9]Open DOISearch in Google Scholar
[10. ISO/DIS 14934-4. 2013. Fire tests – Calibration and use of heat flux meters- Part 4 Guidance on the use of heat flux meter in fire tests. 24 p.]Search in Google Scholar
[11. HUGGETT, C. 1980. Estimation of the Rate of Heat Release by Means of Oxygen Consmption. Journal of Fire and Flammability, Vol. 12, pp. 61-65.]Search in Google Scholar
[12. BABRAUSKAS, V. 1982. Development of the Cone Calorimeter – A Bench-scale Rate of Heat Release Apparatus Based on Oxygen Consumption. NBSIR 82-2611. NBS. Gaithersburg, MD.10.6028/NBS.IR.82-2611]Search in Google Scholar
[13. Kronospan OSB Superfinish ECO - OSB for interior use as a load-bearing building element in a damp environment. OSB / 3 according to EN 300, carrier plate for use in humid environments. Kronospan, s.r.o., Jihlava. Statement of features number OSB3-CPR-2013-07-01.]Search in Google Scholar
[14. ISO 11358-1:2014: Plastics - Thermogravimetry (TG) of polymers -- Part 1: General principles.]Search in Google Scholar
[15. ISO 11357-1:2016: Plastics - Differential scanning calorimetry (DSC) - Part 1: General principles.]Search in Google Scholar
[16. BABRAUSKAS, V., GRAYSON, S. J. 1992. Heat Release in Fires. Elsevier Science Publisher LTD, 644 p.]Search in Google Scholar