Elastic Critical Moment for the Lateral–Torsional Buckling (LTB) Analysis of Structural Glass Beams with Discrete Mechanical Lateral Restraints

Santo, Dario; Mattei, Silvana; Bedon, Chiara

doi:10.3390/ma13112492

Cited by 19 publications

(10 citation statements)

References 34 publications

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“…The mechanical connection at each beam-column interception took the form of an ideal pin, see Figure 5b. Possible out-of-plane deformations of the frame were restrained, and the related mechanisms (including lateral-torsional buckling for beams [46,47], or coupled bending-compressive buckling for columns [48]) can be preliminarily disregarded. For the base restraints of columns, stainless steel pins pass through two holes in the glass (ϕ g = 32 mm in diameter, with ϕ = 24 mm the nominal diameter of bolts and D = 500 mm their distance).…”

Section: Geometrical and Mechanical Propertiesmentioning

confidence: 99%

On the Use of Cloud Analysis for Structural Glass Members under Seismic Events

2021

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Current standards for seismic-resistant buildings provide recommendations for various structural systems, but no specific provisions are given for structural glass. As such, the seismic design of joints and members could result in improper sizing and non-efficient solutions, or even non-efficient calculation procedures. An open issue is represented by the lack of reliable and generalized performance limit indicators (or “engineering demand parameters”, EDPs) for glass structures, which represent the basic input for seismic analyses or q-factor estimates. In this paper, special care is given to the q-factor assessment for glass frames under in-plane seismic loads. Major advantage is taken from efficient finite element (FE) numerical simulations to support the local/global analysis of mechanical behaviors. From extensive non-linear dynamic parametric calculations, numerical outcomes are discussed based on three different approaches that are deeply consolidated for ordinary structural systems. Among others, the cloud analysis is characterized by high computational efficiency, but requires the definition of specific EDPs, as well as the choice of reliable input seismic signals. In this regard, a comparative parametric study is carried out with the support of the incremental dynamic analysis (IDA) approach for the herein called “dynamic” (M1) and “mixed” (M2) procedures, towards the linear regression of cloud analysis data (M3). Potential and limits of selected calculation methods are hence discussed, with a focus on sample size, computational cost, estimated mechanical phenomena, and predicted q-factor estimates for a case study glass frame.

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Section: Geometrical and Mechanical Propertiesmentioning

confidence: 99%

On the Use of Cloud Analysis for Structural Glass Members under Seismic Events

2021

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“…Experimental results were compared with lateral torsional buckling resistance calculated according to the buckling curve approach. Analysis and design of glass structural members is an active area of study in this days (Bedon and Amadio, 2018;Bedon, 2019;Bedon et al, 2019;Koca, 2019;Santo et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Building Design Rule for Glass Structures by Persian Curve

Ranjbaran¹,

Ranjbaran²,

Ranjbaran³

2021

International Journal of Structural Glass and Advanced Material

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Glass is being increasingly used as a structural material. Its favorable aesthetic qualities have made it popular with modern designers. Recently glass is used for major structural elements such as beams and columns in modern and innovative architectural applications. High slenderness ratios and brittle behavior in tension contribute to the complexity of stability and ultimate strength analysis of glass structures. Moreover the available design curves and methods of ultimate strength analysis of glass structure contain epistemic uncertainty, therefore are not reliable. In this study, based on logical reasoning, concise mathematics and reliable data, a reliable method called the change of state philosophy is developed and expressed in the Persian curve. The Persian curve is used for reliable analysis of glass structures. The validity of the work is verified via its sound basic formulation and comparison of the results with those of the others in the literature.

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“…A vast amount of literature is devoted to the evaluation of the mechanical response of sound laminated glass, both theoretically [1][2][3] and experimentally [4][5][6]. Very few works address the post-breakage response.…”

Section: Introductionmentioning

confidence: 99%

Phase Field Simulation of Laminated Glass Beam

Freddi

Mingazzi

2020

Materials

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The complex failure mechanisms of glass laminates under in-plane loading conditions is modelled within the framework of phase-field strategy. Laminated glass is widely used for structural purposes due to its safe post-glass-breakage response. In fact, the combination of several glass plies bonded together with polymeric interlayers allows overcoming the brittleness of the glass and to reach a pseudo-ductile response. Moreover, the post-breakage behaviour of the laminate is strictly correlated by the mechanical properties of the constituents. Ruptures may appear as cracks within the layers or delamination of the bonding interface. The global response of a glass laminate, validated against experimental results taken from the literature, is carried out by investigating a simplified layup of two glass plies connected by cohesive interfaces through an interlayer. Delamination of the adhesive interface is described, and crack patterns within the materials are fully described. Finally, the proposed approach put the basis for future comparisons with results of experimental campaign and real-life applications.

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Elastic Critical Moment for the Lateral–Torsional Buckling (LTB) Analysis of Structural Glass Beams with Discrete Mechanical Lateral Restraints

Cited by 19 publications

References 34 publications

On the Use of Cloud Analysis for Structural Glass Members under Seismic Events

On the Use of Cloud Analysis for Structural Glass Members under Seismic Events

Building Design Rule for Glass Structures by Persian Curve

Phase Field Simulation of Laminated Glass Beam

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