Beam-column Connection Flexural Behavior and Seismic Collapse Performance of Concentrically Braced Frames PDF Download

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Languages : en
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Author: Federico M. Mazzolani
Publisher: Springer Nature
ISBN: 3031038118
Category : Technology & Engineering
Languages : en
Pages : 1146

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This volume highlights the latest advances, innovations, and applications in the field of seismic design and performance of steel structures, as presented by leading international researchers and engineers at the 10th International Conference on the Behaviour of Steel Structures in Seismic Areas (STESSA), held in Timisoara, Romania, on 25-27 May 2022. It covers a diverse range of topics such as behaviour of structural members and connections, performance of structural systems, mixed and composite structures, energy dissipation systems, self-centring and low-damage systems, assessment and retrofitting, codes and standards, light-gauge systems. The contributions, which were selected by means of a rigorous international peer-review process, present a wealth of exciting ideas that will open novel research directions and foster multidisciplinary collaboration among different specialists.

Author: Ryan Ballard
Publisher:
ISBN:
Category :
Languages : en
Pages : 203

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Concentrically braced frame (CBF) structural systems resist lateral loads using braces framed diagonally between frame work points defined at the intersection of beam, column, and brace centerlines. In the past few decades, research on CBFs has primarily focused on improving seismic detailing requirements for new construction. Braced frames designed prior to 1988, termed non-seismic concentrically braced frames (NCBFs), had much less stringent design requirements the consequences of which include high variability in the beam-to-connection detail, an inability to develop the yield capacity of the brace, and unknown controlling failure modes. Evaluation and retrofit of existing NCBF systems can be challenging in part due to the lack of experimental research evaluating the variety of connection details and deficiencies present in existing NCBF infrastructure. As part of a large NSF supported effort to provide guidance on the seismic evaluation and retrofit of NCBFs, five NCBF frames focusing on bolted beam-to-column connections were designed and tested at the University of Washington Structural Research Laboratory. The results are compared to the results of nine previous NCBF tests using measured response parameters and observed performance. It was found that the brace type along with the continuity, flexibility, and deficiencies of the connection could dramatically impact the deformation capacity, failure mode, and yielding hierarchy observed in an NCBF. Backbone curves developed for all fourteen experiments provide modeling parameters to be used in the development of modified procedures for evaluation and retrofit of braced frames.

Author: Michael D. Engelhardt
Publisher:
ISBN:
Category : Building, Iron and steel
Languages : en
Pages : 418

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Author: Chen Wang
Publisher:
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Category :
Languages : en
Pages :

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"In low and moderate seismic regions, low-ductility concentrically braced frames (CBFs) are widely used as the seismic force-resisting system for steel structures. Unlike high-ductility CBFs, the capacity-based design principle and additional seismic detailing are not required for such systems, which are referred to as conventional CBFs (CCBFs) in this study. In CCBFs, the brace-to-gusset connections are inherently weaker than the adjoining gusset plates and braces when loaded in tension. This occurs because both the gusset plates and the braces are most often selected based on their respective compressive buckling resistances, and hence, typically have a much greater resistance in tension. As such, brace connections are critical for the seismic behaviour and collapse prevention performance of CCBFs. However, brace connections have received little research attention because they are usually assumed to remain elastic in most capacity-based designs, and as such, their inelastic behaviour is not fully understood at a fundamental level. This is reflected in the different code provisions: in Canada, the seismic design force must be amplified by 1.5 for brace connections in CCBFs unless these connections are proven to be ductile as per CSA S16-19; in New Zealand, for connections in CCBFs, a structural performance factor of 1.0 is required, compared with 0.9 for structural members, which effectively increases the seismic design force demand on connections as per NZS 3404; no analogous requirements exist for CCBFs in the USA as per ANSI/AISC 341-16 or in Europe as per Eurocode 8.The inelastic behaviour of and the seismic deformation demand on CCBF brace connections were studied through a two-level numerical simulation approach, which is presented in this thesis. The bolted flange plate connection of the I-shape brace, which is a common design choice for CCBFs, was selected as the subject of this study.At the connection level, a high-fidelity finite element (FE) simulation procedure was developed for the bolted flange plate connection and validated against laboratory test results. The force transfer mechanism within the branches of the connection was characterized. Subsequently, a parametric study based on the validated numerical simulation procedure was carried out. Three key design parameters, namely, the gusset plate thickness, the flange lap plate thickness, and the web lap plate thickness, were varied to study their effects on both the compressive and tensile behaviour of the brace and the connection assembly. Various deformation mechanisms and failure modes were revealed under both compression and tension. Design recommendations are proposed with regards to attaining better deformation capacity.Based on the knowledge gained from the high-fidelity numerical simulations, a computationally efficient component-based modeling method was developed for the bolted brace connection. The connection was discretized into individual components, and modeled by means of organized springs, which each simulate the behaviour of a component. After validation against experimental test results, the component-based connection model was incorporated into a system-level numerical model for a series of prototype CCBFs. Through nonlinear static and dynamic structural analyses, the seismic behaviour and collapse prevention performance of CCBFs were studied. When loaded in tension, the brace connections deformed much more than the brace, and amplifying the design force by 1.5 was effective in reducing the seismic deformation demand on brace connections. In some cases, a secondary seismic force-resisting mechanism developed and prevented the system from collapse after the primary seismic force-resisting mechanism had failed"--

Author: Federico Mazzolani
Publisher: CRC Press
ISBN: 020311941X
Category : Technology & Engineering
Languages : en
Pages : 1147

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Book Description
Behaviour of Steel Structures in Seismic Areas is a comprehensive overview of recent developments in the field of seismic resistant steel structures. It comprises a collection of papers presented at the seventh International Specialty Conference STESSA 2012 (Santiago, Chile, 9-11 January 2012), and includes the state-of-the-art in both theore

Author: Keith D. Hjelmstad
Publisher:
ISBN:
Category : Buildings
Languages : en
Pages : 186

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Author: Subhash Chandra Goel
Publisher:
ISBN: 9781580017145
Category : Building, Iron and steel
Languages : en
Pages : 261

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Author: Joshua G. Sizemore
Publisher:
ISBN:
Category :
Languages : en
Pages :

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Author: Clay Joshua Naito
Publisher:
ISBN:
Category : Bridges, Concrete
Languages : en
Pages : 262

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