Glass-Steel Triangulated Structures

Parametric Nonlinear Finite-Element Analysis of In-Plane and Out-of-Plane Structural Response of Triangular Laminated Glass Panels

Journal article (2020)

Authors

Francesco Laccone University of Pisa

P.C. Louter Structural Design & Mechanics - Architecture and the Built Environment

Maurizio Froli University of Pisa

Research Group

Structural Design & Mechanics (Architecture and the Built Environment) (TU Delft)

Buckling Structural glass Hybrid glass-steel structure Long-spanned Posttensioning Tetrahelix Triangular glass pane

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Published Date

2020

Language

English

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Faculty

Architecture and the Built Environment

Department

Architectural Engineering +Technology

Research Group

Structural Design & Mechanics

Abstract

Glass exhibits brittle failure behavior. Therefore, redundancy is a fundamental design requirement when using glass as a main structural material. On this basis, a novel structural concept has been developed for hybrid glass-steel posttensioned triangulated structures, where the two materials collaborate. In forming such lattice structure, local fracture must be avoided. This paper presents a parametric study that highlights the influences of mechanical and geometrical parameters on the in-plane and out-of-plane static behaviour of laminated triangular glass panels. The resulting data set constitutes a useful source for the designer to select the most appropriate component. The main sensitivity parameters are panel length, laminate thickness, and interlayer stiffness.

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