[[1] DECREE of the Ministry of Interior of SR n. 94/2004 Collection of Laws, on the Technical Requirements for Fire Safety during Construction and Use of Buildings.]Search in Google Scholar
[[2] EN 13501-6:2018. 2018. Fire classification of construction products and building elements. Part 6: Classification using data from reaction to fire tests on power, control and communication cables. Brussels: European Committee for Standardization, 32 p.]Search in Google Scholar
[[3] IEC 60332-1-2:2004. 2004. Tests on electric and optical fibre cables under fire conditions - Part 1-2: Test for vertical flame propagation for a single insulated wire or cable - Procedure for 1 kW pre-mixed flame. 1st ed. Geneva: International Electrotechnical Commission, 21 p.]Search in Google Scholar
[[4] EN 50399:2011/A1:2016. 2016. Common test methods for cables under fire conditions. Heat release and smoke production measurement on cables during flame spread test. Test apparatus, procedures, results. Brussels: European Committee for Standardization, 62 p.]Search in Google Scholar
[[5] HUANG, X., ZHU, H., PENG, L., ZHENG, Z., ZENG, W., BI, K., CHENG, C., CHOW, W. 2019. Burning behavior of cable tray located on a wall with different cable arrangements. Fire and Materials, 43(1), 64-73. ISSN 0308-0501.]Search in Google Scholar
[[6] ZAVALETA, P., SUARD, S., AUDOUIN, L. 2018. Fire spread from an open-doors electrical cabinet to neighboring targets in a confined and mechanically ventilated facility. Fire and Materials, Article in press. DOI 10.1002/fam.2685. ISSN 0308-0501.10.1002/fam.2685.ISSN0308-0501]Open DOISearch in Google Scholar
[[7] SARAZIN, J., BACHELET, P., BOURBIGOT, S. 2017. Fire behavior of simulated low voltage intumescent cables with and without electric current. Journal of Fire Sciences, 35(3), 179-194. ISSN 0734-9041.]Search in Google Scholar
[[8] HAYNES, W., M. 2015. Handbook of chemistry and physics. 96th ed. Boca Raton: CRC Press, 2015. 2677 p. ISBN 978-148226096-0.]Search in Google Scholar
[[9] MARTINKA, J. 2016. Cone calorimeter application on the comprehensive research of fire risk of selected organic polymers and combustible liquids: Habilitation. 1st ed. Bratislava: Slovak University of Technology in Bratislava, 192 p.]Search in Google Scholar
[[10] CHEN, C., CHEN, J., ZHAO, X., SHI, C. 2018. Experimental investigation on combustion characteristics of steel cable for cable-stayed bridge. Journal of Thermal Analysis and Calorimetry, 134(3), 2317-2327. ISSN 1388-6150.]Search in Google Scholar
[[11] BEJI, T., VERSTOCKT, S., ZAVALETA, P., MERCI, B. 2016. Flame Spread Monitoring and Estimation of the Heat Release Rate from a Cable Tray Fire Using Video Fire Analysis (VFA). Fire Technology, 52(3), 611-621. ISSN 0015-2684.10.1007/s10694-015-0538-2]Search in Google Scholar
[[12] HU, L., ZHU, K., LU, Y., ZHANG, X. 2019. An experimental study on flame spread over electrical wire with high conductivity copper core and controlling heat transfer mechanism under sub-atmospheric pressures. International Journal of Thermal Sciences, 141(1), 141-149. ISSN 1290-0729.]Search in Google Scholar
[[13] MORANDINI, F., SILVANI, X., DUPUY, J., SUSSET, A. 2018. Fire spread across a sloping fuel bed: Flame dynamics and heat transfers. Combustion and Flame, 190(1), 158-170. ISSN 0010-2180.]Search in Google Scholar
