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Design of Steel Structures for Building in Seismic Areas: Eurocode 8: Design of Structures for Earthquake Resistance.Part 1: General Design of Steel Structures for Buildings

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Descripción

This volume elucidates the design criteria and principles for steel structures under seismic loads according to Eurocode 8-1. Worked Examples illustrate the application of the design rules.


Características

  • ISBN: 9783433030103
  • Páginas: 510
  • Tamaño: 17x24
  • Edición:
  • Idioma: Inglés
  • Año: 2017

Disponibilidad: 24 horas

Contenido Design of Steel Structures for Building in Seismic Areas: Eurocode 8: Design of Structures for Earthquake Resistance.Part 1: General Design of Steel Structures for Buildings

This volume elucidates the design criteria and principles for steel structures under seismic loads according to Eurocode 8-1. Worked Examples illustrate the application of the design rules. Two case studies serve as best-practice samples.

Table of Contents

PART 1. DESIGN CRITERIA AND CODIFICATION


1 Seismic design principles

1.1. Capacity design criteria
1.2. Dissipative structures and typologies of steel structural systems
1.3. State of European seismic codification and new perspectives
1.4. Conceptual design

2 Introduction to EN1998-1: Explanation and commentary

2.1. Seismic action
2.2. General recommendations for seismic resistant structures
2.3. Analysis methods
2.4. Detailed provisions to design steel structures

PART 2. WORKED EXAMPLES

3 Multi-storey building with moment resisting frame


3.1. General data
3.2. Design and safety check under gravity loads
3.3. Design and safety check under seismic actions

4 Multi-storey building with concentric brace frame

4.1. General data
4.2. Design and safety check under gravity loads
4.3. Design and safety check under seismic actions

5 Multi-storey building with eccentric brace frame

5.1. General data
5.2. Design and safety check under gravity loads
5.3. Design and safety check under seismic actions

6 One-storey industrial building

6.1. General data
6.2. Design and safety check under gravity loads
6.3. Design and safety check under seismic actions

PART 3. STUDY CASES

7 The Bucharest Tower Center


7.1. General data
7.2. Conceptual Design
7.3. Design and safety check under seismic actions
7.4. Credits

8 The fire station of Naples

8.1. General data
8.2. Conceptual Design
8.3. Design and safety check under seismic actions
8.4. Credits

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