Performance of structural glass facades under extreme loads – Design methods, existing research, current issues and trends

Forskningsoutput: TidskriftsbidragÖversiktsartikel


Glass has been overwhelmingly used for windows and facades in modern constructions, for many practical reasons, including thermal, energy, light and aesthetics. Nevertheless, due to the relatively low tensile strength and mostly brittle behaviour of glass, compared to other traditional materials, as well as to a multitude of interacting structural and non-structural components, windows/facades are one of the most fragile and vulnerable components of buildings, being representative of the physical line of separation between interior and exterior spaces. As such, multidisciplinary approaches, as well as specific fail-safe design criteria and analysis methods are required, especially under extreme loading conditions, so that casualties and injuries in the event of failure could be avoided and appropriate safety levels could be guaranteed. In this context, this paper presents a review of the state of art on analysis and design methods in use for glass facades, with careful consideration for extreme loading configurations, including natural events, such as seismic events, extreme wind or other climatic exposures, and man-made threats, i.e. blast loads and fire. Major results of available experimental outcomes, current issues and trends are also reported, summarising still open challenges.


  • Chiara Bedon
  • Xihong Zhang
  • Filipe Santos
  • Dániel Honfi
  • Marcin Kozłowski
  • Michel Arrigoni
  • Lucia Figuli
  • David Lange
Enheter & grupper
Externa organisationer
  • University of Trieste
  • Curtin University
  • Universidade Nova de Lisboa
  • Research Institutes of Sweden (RISE)
  • Silesian University of Technology
  • École nationale supérieure de techniques avancées Bretagne
  • University of Žilina

Ämnesklassifikation (UKÄ) – OBLIGATORISK

  • Husbyggnad


Sidor (från-till)921-937
Antal sidor17
TidskriftConstruction and Building Materials
StatusPublished - 2018 feb 28
Peer review utfördJa