Steel designers' manual /

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In 2010 the then current European national standards for building and construction were replaced by the EN Eurocodes, a set of pan-European model building codes developed by the European Committee for Standardization. The Eurocodes are a series of 10 European Standards (EN 1990 - EN 1999) that provi...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: Steel Construction Institute (Great Britain)
Otros Autores: Davison, Buick, Owens, Graham W.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken : John Wiley & Sons, 2011.
Edición:7th ed.
Temas:
Steel, Structural.
Acier de construction.
structural steel.
TECHNOLOGY & ENGINEERING > Structural.
Steel, Structural
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title page; Copyright page; Introduction to the seventh edition; Contributors; INTRODUCTION; Chapter 1 Introduction
  • designing to the Eurocodes; 1.1 Introduction; 1.2 Creation of the Eurocodes; 1.3 Structure of the Eurocodes; 1.4 Non-contradictory complementary information
  • NCCI; 1.5 Implementation in the UK; 1.6 Benefits of designing to the Eurocodes; 1.7 Industry support for the introduction of the Eurocodes; 1.8 Conclusions; Chapter 2 Integrated design for successful steel construction; 2.1 Client requirements for whole building performance, value and impact.
  • 2.2 Design for sustainability2.3 Design for overall economy; 2.4 Conclusions; Chapter 3 Loading to the Eurocodes; 3.1 Imposed loads; 3.2 Imposed loads on roofs; 3.3 Snow loads; 3.4 Accidental actions; 3.5 Combinations of actions; DESIGN SYNTHESIS; Chapter 4 Single-storey buildings; 4.1 The roles for steel in single-storey buildings; 4.2 Design for long term performance; 4.3 Anatomy of structure; 4.4 Loading; 4.5 Common types of primary frame; 4.6 Preliminary design of portal frames; 4.7 Bracing; 4.8 Design of portal frames to BS EN 1993-1-1; Chapter 5 Multi-storey buildings; 5.1 Introduction.
  • 5.2 Costs and construction programme5.3 Understanding the design brief; 5.4 Structural arrangements to resist sway; 5.5 Stabilising systems; 5.6 Columns; 5.7 Floor systems; Chapter 6 Industrial steelwork; 6.1 Introduction; 6.2 Anatomy of structure; 6.3 Loading; 6.4 Thermal effects; 6.5 Crane girder / lifting beam design; 6.6 Structure in its wider context; Chapter 7 Special steel structures; 7.1 Introduction; 7.2 Space frame structures: 3-dimensional grids based on regular solids; 7.3 Lightweight tension steel cable structures; 7.4 Lightweight compression steel structures.
  • 7.5 Steel for stadiums7.6 Information and process in the current digital age
  • the development of technology; Case study project credits; Chapter 8 Light steel structures and modular construction; 8.1 Introduction; 8.2 Building applications; 8.3 Benefits of light steel construction; 8.4 Light steel building elements; 8.5 Modular construction; 8.6 Hybrid construction; 8.7 Structural design issues; 8.8 Non-structural design issues; Chapter 9 Secondary steelwork; 9.1 Introduction; 9.2 Issues for consideration; 9.3 Applications; APPLIED METALLURGY; Chapter 10 Applied metallurgy of steel.
  • 10.1 Introduction10.2 Chemical composition; 10.3 Heat treatment; 10.4 Manufacture and effect on properties; 10.5 Engineering properties and mechanical tests; 10.6 Fabrication effects and service performance; 10.7 Summary; Chapter 11 Failure processes; 11.1 Fracture; 11.2 Linear elastic fracture mechanics; 11.3 Elastic-plastic fracture mechanics; 11.4 Materials testing for fracture properties; 11.5 Fracture-safe design; 11.6 Fatigue; 11.7 Final comments; ANALYSIS; Chapter 12 Analysis; 12.1 Introduction; 12.2 The basics; 12.3 Analysis and design; 12.4 Analysis by hand; 12.5 Analysis by software.
  • 12.6 Analysis of multi-storey buildings.

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