Ein Bemessungskonzept für SL‐belastete Anschlüsse im konstruktiven Glasbau

Baitinger, Mascha; Feldmann, Markus

doi:10.1002/stab.201001302

Cited by 5 publications

(1 citation statement)

References 2 publications

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“…Classic point supports are metal-made and are inserted into glass holes. For a more even distribution of stresses in the glass hole, less stiff material (e.g., cement paste, different adhesives, aluminium rings) is used to bridge the gap between the glass support and glass hole edge, and to minimise the glass stress concentration, as is presented in [22,23], in which the stress distribution in glass holes was investigated. In [24], it was shown that adhesively bonded point supports result in higher connection load-bearing capacities when compared with classic point supports in glass holes.…”

Section: Introductionmentioning

confidence: 99%

Novel composite connection for timber–glass composite structures

Unuk

Štrukelj

Leskovar

et al. 2020

Archiv.Civ.Mech.Eng

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This study presents a newly developed timber-glass point connection intended to strengthen existing timber elements in a reversible and visually unobtrusive manner. The new connection consists of an aluminium insertion, two-component structural bonding epoxy resin adhesive, and self-tapping screws. The connection offers the possibility of easy attachment and detachment of the glass element from the strengthened timber element. Seven timber-glass specimens were constructed to perform an experimental investigation of the shear load-bearing capacity and load-slip behaviour of the connection. The aluminium insertion is bonded to a tempered glass strip with a hole and is screwed to the spruce timber block. The timberglass connection preparation process is thoroughly presented. A special testing apparatus was developed to perform the experiments on a hydraulic universal testing machine. The experimental results are evaluated using analytical expressions and a finite-element simulation. The average connection load-bearing capacity obtained from the experiments of the analysed specimen was 13.31 kN, and the average slip modulus was 20.48 kN/mm. All connections failed on account of self-tapping screw failure, whereas the tempered glass strips remained undamaged.

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Section: Introductionmentioning

confidence: 99%

Novel composite connection for timber–glass composite structures

Unuk

Štrukelj

Leskovar

et al. 2020

Archiv.Civ.Mech.Eng

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Ein Bemessungskonzept für SL‐belastete Anschlüsse im konstruktiven Glasbau

Baitinger

Feldmann

2010

Stahlbau

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Bei Entwurf und Bemessung von tragenden Ganzglaskonstruktionen spielt die Verbindungstechnik eine entscheidende Rolle. Denn dort, wo Glasscheiben zum Beispiel punktförmig gehalten werden, entstehen im Bereich der Bohrungen Spannungsspitzen, die, sofern keine weiteren konstruktiven Maßnahmen ergriffen werden, aufgrund des spröden Werkstoffverhaltens nicht abgebaut oder umgelagert werden und somit plötzlichen Bruch verursachen können. Dies gilt auch für Scher‐Lochleibungsverbindungen von in Scheibenebene belasteten Anschlusskonstruktionen, bei denen deswegen die Bolzenlasten nur über eine duktile, lastverteilende Zwischenschicht auf die Bohrungswandung des Glases wirken dürfen. Im folgenden Beitrag wird eine einfache Bemessungsgleichung für SL‐belastete Anschlüsse im Glasbau vorgestellt, die auf einem analytischen Ansatz basiert, bei dem lokale Beanspruchungen infolge Lochleibungsdrucks mit Beanspruchungen im Nettoquerschnitt überlagert werden, und bei dem für beide Anteile eine Lösung für die Airysche Spannungsfunktion gefunden wird. Damit können nun ohne Anwendung von Finite‐Elemente‐Berechnungen die maßgebenden Spannungen des Glasbauteils in Abhängigkeit der an der Einzelbohrung angreifenden Bemessungsbolzenlast, des Bohrungsdurchmessers und der Scheibendicke ermittelt werden. Dabei wurde der Bemessungsansatz mit Hilfe von Versuchen und numerischen Untersuchungen überprüft. Einzeleinflüsse, die sich einerseits aus Montage‐ und Herstelltoleranzen sowie andererseits aus Entwurfsparametern ergeben, wurden erstmals systematisch mithilfe von FEM‐Berechnungen untersucht und konnten zahlenmäßig so erfasst werden, dass sie in Form von Beiwerten in die vorgeschlagene Bemessungsformel einfließen können. A design concept for bolt connections in structural applications. For the design of load carrying glazing structures the connection technique plays a very important role, as e.g. there are significant stress concentrations in the vicinity of holes that are subject to a point‐like support of glass panes. If no further constructional means are provided, the stress peaks cannot be redistributed and thus a sudden brittle failure is likely to occur. In particular this concerns bolts in bearings of drilled glass holes as long as no ductile stress distributing interlayers in the clearance between hole bearing and bolt shank is provided. In the article, a simple design formula for glass joints with bolts in bearings is suggested that is based on an analytical approach where the local stress distributions coming on the one hand from the bearing pressure and on the other hand from the net section stress concentrations are superposed, and both for which the solutions according to Airy's differential equation are found respective used further on. By this the relevant stresses in dependence on the acting design force, the hole diameter and the pane thickness can be determined without performing complex and time consuming Finite Element calculations. However the analytical formulae have been verified by experiments and numerica...

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The new CEN/TS 19100: Design of glass structures

Feldmann¹,

Laurs²,

Belis³

et al. 2023

Glass Struct Eng

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Since the beginning of 2021, CEN/TS 19100 Design of Glass Structures has been available in its first three parts. The fourth part is expected soon. This Technical Specification of the European standards organisation CEN is as a pre-standard of a corresponding future Eurocode. These documents constitute the first ever comprehensive design code for the entire structural glass engineering field on the European market for the first time. In addition to a clear outline, the Technical Specification has been drafted to be compatible with EN 1990 “Basis of Design” and to address glass-specific design matters, particularly related to robustness and redundancy. Although the standard still has the status of a CEN/TS, thereby allowing the European nations the option of whether to introduce it, either in full or in parts, it already contains national openings through which the European countries can adapt the design results to their own safety level by National Determined Parameters (NDPs). Such an approach already anticipates the future Eurocode, which is expected to be published as EN 19100—Design of Glass Structures. This article provides some context on the history and concept behind the new documents and gives an overview of the design rules and the corresponding technical background of the different parts of CEN/TS 19100.

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Ein Bemessungskonzept für SL‐belastete Anschlüsse im konstruktiven Glasbau

Cited by 5 publications

References 2 publications

Novel composite connection for timber–glass composite structures

Novel composite connection for timber–glass composite structures

Ein Bemessungskonzept für SL‐belastete Anschlüsse im konstruktiven Glasbau

The new CEN/TS 19100: Design of glass structures

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