The Effect of the Heat Flux on the Self-Ignition of Oriented Strand Board

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 978-80-87427-23-1Search in Google Scholar

2. DRYSDALE, D. An Introduction to Fire Dynamics. 1990. John Wiley and Sons, A Wiley – Interscience Publication, pp. 253-277. ISBN: 0-471-90613-1Search 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 0-9728111-3-3Search 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 0-87765-354-2Search in Google Scholar

6. TROITZSCH, J. 1990. Plastics Flammability Handbook: Principles, Regulationos and Approval. Munchen/Wien: Carl Hanser Verlag 517 pp. N.Y. ISBN: 3-446-15156-7Search 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 1-85166-794-6Search 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)90019-9Open 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.82-2611Search 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