Overview
ABSTRACT
Structural steels are ductile and allow for building structures, which are able to deform without breaking, to make use of numerous possible local deformations of various types. The advantage of using the proposed building system to dissipate energy in plastic deformation in the context of earthquake resistant design is explained along with the "ductility classes" structure within the Eurocode 8 framework the European standard applied to the whole of Europe in 2010. Local and non dissipative mechanisms are also identified. In addition, global plastic mechanisms, which are design objectives related to the various typologies of frames, are presented along with the principles of capacity design, a key notion in such design, and its applications. Design rules for moment resisting frames, frames with concentric bracings and frames with eccentric bracings are detailed with the signification and justification of the rules identified. Elements concerning the conceptual design of earthquake resistant steel buildings are also provided.
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Read the articleAUTHOR
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André PLUMIER: Professor at the University of Liège
INTRODUCTION
Structural steels complying with standards are ductile, and this characteristic makes sections, flats and sheets excellent a priori for building stable structures in seismic zones, as these steel products can achieve high energy dissipation in a variety of deformation patterns.
Observations made after major earthquakes generally confirm the seismic effectiveness of steel constructions, but there are exceptions. The Northridge (USA) earthquake in 1994 and the Kobe (Japan) earthquake in 1995, for example, led to extensive local cracking in some buildings. The metallic nature of a building is not necessarily synonymous with seismic-resistant quality, and only well-considered options can ensure the desired ductile overall behavior.
The construction project should encourage the formation of healthy dissipative zones where local ductile deformations can develop, and these should occur at selected locations. This will be achieved by respecting specific rules relating to materials, elements and assemblies, as well as by applying hierarchical criteria, all derived from the general concept of "capacity dimensioning", specific to each type of framework.
These recently developed rules and criteria were not included in the first version of the PS92 rules. They are presented here in the context of the formulation adopted in Eurocode 8, the seismic code in force throughout Europe in 2011. In the text that follows, we have chosen to retain the symbols used in the French version of Eurocode 8, which sometimes include clues in English terminology.
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Earthquake-resistant steel structures
Bibliography
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Websites
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ESDEP
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Arcelor Mittal
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Standards and norms
Association Française de Normalisation AFNOR
- Eurocode 8 : Calcul des structures pour leur résistance aux séismes. Partie 1 : Règles générales, actions sismiques et règles pour les bâtiments. (Eurocode 8). CEN, Comité Européen de Normalisation. - NF EN 1998-1:2005 - 2005
- Annexe nationale à NF EN 1998-1. - NF EN 1998-1/NA - Décembre 2007
Other Standards
- Moment Connections For Seismic...
Directory
Organizations – Federations – Associations (non-exhaustive list)
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AFPS. French Association for Earthquake Engineering
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FEMA. Federal Emergency Management Agency. Agency of the US government tasked with Disaster...
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