Fire Growth Rate Index as a Key Fire Characteristic of Electrical Cables-Reference-Cited by-同舟云学术

Fire Growth Rate Index as a Key Fire Characteristic of Electrical Cables

Published:2021-06-01 Issue:48 Volume:29 Page:81-90
ISSN:1338-0532
Container-title:Research Papers Faculty of Materials Science and Technology Slovak University of Technology
language:en
Short-container-title:

Author:

Martinka Jozef¹^ORCID,Rantuch Peter¹^ORCID,Wachter Igor¹^ORCID,Štefko Tomáš¹^ORCID,Trčka Martin²^ORCID,Hladová Martina¹^ORCID,Nečas Aleš¹^ORCID,Sulová Janka³

Affiliation:

1. Slovak University Of Technology In Bratislava , Faculty Of Materials Science And Technology In Trnava, Institute Of Integral Safety , Ulica Jána Bottu 2781/25, 917 24 Trnava, Slovak Republic

2. Vsb Technical University Of Ostrava , Faculty Of Safety Engineering , Lumírova 630/13, 700 30 Ostrava - Výškovice, Czech Republic

3. Vuki, A.S., Rybničná 38 , 831 07 Bratislava, Slovak Republic

Abstract

Abstract This study deals with the Fire Growth Rate Index (FIGRA) as a key fire characteristic of electrical cables (determined by a cone calorimeter) that allows to estimate their reaction to fire class. Three power (supply) electrical cables (reaction to fire class B2ca) were tested by a cone calorimeter using different heat fluxes of 20, 30, 40 a 50 kW·m−2. The cables were three-wire (cross-section of each wire was 1.5 mm2) with a nominal voltage of 0.6 kV (alternating current), resp. 1 kV (direct current). The cable sheaths were made of an ethylene copolymer filled with aluminum hydroxide. The beddings were made of an ethylene copolymer filled with a mixture of aluminum hydroxide and calcium carbonate. The conductor insulations of one electrical cable were made of crosslinked polyethylene and the conductor insulations of the other two electrical cables were made of an ethylene copolymer filled with aluminum hydroxide. FIGRA was determined per unit length and unit area of electrical cables. FIGRA increased with increasing heat flux. At a heat flux of 50 kW·m−2, all the electric cables examined showed a very similar FIGRA (from 0.19 to 0.21 kW·m−1·s−1 and 18.4 to 21.2 kW·m−1·s−1, respectively). Conversely, at a heat flux of 20 kW·m−2, the investigated cables showed greater FIGRA variance (in the range of 0.11 to 0.16 kW·m−1·s−1 or 10.8 to 16.2 kW·m−1·s−1).

Publisher

Walter de Gruyter GmbH

Link

https://www.sciendo.com/pdf/10.2478/rput-2021-0008

Reference14 articles.

1. [1] EN 13501-6:2018. Fire classification of construction products and building elements - Part 6: Classification using data from reaction to fire tests on power, control and communication cables.

2. [2] EN ISO 1716:2018. Reaction to fire tests for products - Determination of the gross heat of combustion (calorific value).

3. [3] EN 50399:2011+A1:2016. Common test methods for cables under fire conditions. Heat release and smoke production measurement on cables during flame spread test. Test apparatus, procedures, results.

4. [4] IEC 60332-1-2:2004+AMD1:2015 CSV. 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.

5. [5] STN 92 0203:2013/O1:2013. Požiarna bezpečnosť stavieb. Trvalá dodávka elektrickej energie pri požiari (Fire safety of buildings. Permanent electricity supply during fire).