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Thermo-mechanical numerical analyses in support of fire endurance assessment of ordinary soda-lime structural glass elements

Chiara Bedon (Department of Engineering and Architecture, University of Trieste, Trieste, Italy)
Christian Louter (Faculty of Civil Engineering and Geosciences, Delft University of Technology, Delft, The Netherlands)

Journal of Structural Fire Engineering

ISSN: 2040-2317

Article publication date: 7 April 2023

Issue publication date: 10 November 2023

53

Abstract

Purpose

Glass material is largely used for load-bearing components in buildings. For this reason, standardized calculation methods can be used in support of safe structural design in common loading and boundary conditions. Differing from earlier literature efforts, the present study elaborates on the load-bearing capacity, failure time and fire endurance of ordinary glass elements under fire exposure and sustained mechanical loads, with evidence of major trends in terms of loading condition and cross-sectional layout. Traditional verification approaches for glass in cold conditions (i.e. stress peak check) and fire endurance of load-bearing members (i.e. deflection and deflection rate limits) are assessed based on parametric numerical simulations.

Design/methodology/approach

The mechanical performance of structural glass elements in fire still represents an open challenge for design and vulnerability assessment. Often, special fire-resisting glass solutions are used for limited practical applications only, and ordinary soda-lime silica glass prevails in design applications for load-bearing members. Moreover, conventional recommendations and testing protocols in use for load-bearing members composed of traditional constructional materials are not already addressed for glass members. This paper elaborates on the fire endurance and failure detection methods for structural glass beams that are subjected to standard ISO time–temperature for fire exposure and in-plane bending mechanical loads. Fire endurance assessment methods are discussed with the support of Finite Element (FE) numerical analyses.

Findings

Based on extended parametric FE analyses, multiple loading, geometrical and thermo-mechanical configurations are taken into account for the analysis of simple glass elements under in-plane bending setup and fire exposure. The comparative results show that – in most of cases – thermal effects due to fire exposure have major effects on the actual load-bearing capacity of these members. Moreover, the conventional stress peak verification approach needs specific elaborations, compared to traditional calculations carried out in cold conditions.

Originality/value

The presented numerical results confirm that the fire endurance analysis of ordinary structural glass elements is a rather complex issue, due to combination of multiple aspects and influencing parameters. Besides, FE simulations can provide useful support for a local and global analysis of major degradation and damage phenomena, and thus support the definition of simple and realistic verification procedures for fire exposed glass members.

Keywords

Acknowledgements

This numerical investigation was financially supported in the framework of MULTIWALL research project (“FRA-2020” grant funded by University of Trieste). The research study was originally presented at the ASFE 21 conference (“Fire endurance analysis of ordinary structural glass elements”).

Citation

Bedon, C. and Louter, C. (2023), "Thermo-mechanical numerical analyses in support of fire endurance assessment of ordinary soda-lime structural glass elements", Journal of Structural Fire Engineering, Vol. 14 No. 4, pp. 522-546. https://doi.org/10.1108/JSFE-01-2023-0003

Publisher

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Emerald Publishing Limited

Copyright © 2023, Emerald Publishing Limited

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