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Simulation of the burning and dripping cables in fire using the particle finite element method

Julio Marti, Bernhard Schartel, Eugenio Oñate

2021Journal of Fire Sciences12 citationsDOIOpen Access PDF

Abstract

The behavior of the cable jacket in fire characterized by the tendency to melt and drip constitutes a major source of fire hazard. The reason is that the melted material may convey the flame from one point to another, expanding fire and contributing to the fire load. In this article, the capability of a new computational strategy based on the particle finite element method for simulating a bench-scale cables burning test is analyzed. The use bench-scale test has been previously used to simulate the full-scale test described in EN 50399. As the air effect is neglected, a simple combustion model is included. The samples selected are two cables consisting of a copper core and differently flame retarded thermoplastic polyurethane sheets. The key modeling parameters were determined from different literature sources as well as experimentally. During the experiment, the specimen was burned under the test set-up condition recording the process and measuring the temperature evolution by means of three thermocouples. Next, the test was reproduced numerically and compared with a real fire test. The numerical results show that the particle finite element method can accurately predict the evolution of the temperature and the melting of the jacket.

Topics & Concepts

Fire testThermocoupleFinite element methodCombustionFire performanceParticle (ecology)Structural engineeringFlame spreadMaterials scienceTest benchEngineeringNuclear engineeringForensic engineeringMechanical engineeringComposite materialFire resistanceGeologyOrganic chemistryChemistryOceanographyFire dynamics and safety researchFlame retardant materials and propertiesFire effects on concrete materials
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