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Provides detailed information for civil and structural engineers who want to use Eurocode 4; Part 1-1: Design of Composite and Steel Structures. This handbook provides technical information on the background to the Eurocode and explains the relationships with other Eurocodes, particularly the close interactions with Eurocode 2 and Eurocode 3.
EN 1994-1-1, also known as Eurocode 4, is a standard of the Eurocode suite. This guide provides the user with guidance on the interpretation and use of EN 1994-1-1 through worked examples in relation to rules for buildings, structural fire design and for bridges. It is useful for civil and structural engineers, code-drafting committees, and more.
- General - Requirements - Principles of limit state design - Basic variables - Structural analysis and design assisted by testing - Verification by the partial factor method - Annex A1 (normative) - Application for buildings - Management of structural reliability for construction works - Basis for partial factor design and reliability analysis - Design assisted by testing - Appendix A: The Construction Products Directive (89/106/EEC) - Appendix B: The Eurocode Suite - Appendix C: Basic statistical terms and techniques - Appendix D: National standard organizations
A guide to 4 documents, EN1991 Part 1.2, EN1992 Part 1.2, EN1993 Part 1.2 and EN1994 Part 1.2. It provides an introduction to the procedures required to achieve design solutions for a typical range of structural elements and assemblies. Worked examples are included to illustrate the use of the Eurocodes for specific design scenarios.
This book details the basic concepts and the design rules included in Eurocode 3 Design of steel structures: Part 1-8 Design of joints Joints in composite construction are also addressed through references to Eurocode 4 Design of composite steel and concrete structures Part 1-1: General rules and rules for buildings. Attention has to be duly paid to the joints when designing a steel or composite structure, in terms of the global safety of the construction, and also in terms of the overall cost, including fabrication, transportation and erection. Therefore, in this book, the design of the joints themselves is widely detailed, and aspects of selection of joint configuration and integration of the joints into the analysis and the design process of the whole construction are also fully covered. Connections using mechanical fasteners, welded connections, simple joints, moment-resisting joints and lattice girder joints are considered. Various joint configurations are treated, including beam-to-column, beam-to-beam, column bases, and beam and column splice configurations, under different loading situations (axial forces, shear forces, bending moments and their combinations). The book also briefly summarises the available knowledge relating to the application of the Eurocode rules to joints under fire, fatigue, earthquake, etc., and also to joints in a structure subjected to exceptional loadings, where the risk of progressive collapse has to be mitigated. Finally, there are some worked examples, plus references to already published examples and to design tools, which will provide practical help to practitioners.
Applies to the design of building and civil engineering structures in plain, reinforced and pre-stressed concrete. The code (for convenience referred to as EC2) is written in several parts: EN 1992 - 1 - 1; EN 1992 - 1 - 2; EN 1992 - 2; and EN 1992 - 3.
Providing detailed information for civil and structural engineers on the use of Eurocode, this handbook covers the basis of design, its background and relationship to the other Eurocodes. This Eurocode provides general principles for the structural design
EN 1994-2 is one standard of the Eurocode suite & describes the principles & requirements for safety, serviceability & durability of composite steel & concrete bridges. This guide provides the user with guidance on the interpretation & use of EN 1994-2 through worked examples in relation to the general rules & the rules for bridges.
Covering the broad spectrum of modern structural engineering topics, the Handbook of Structural Engineering is a complete, single-volume reference. It includes the theoretical, practical, and computing aspects of the field, providing practicing engineers, consultants, students, and other interested individuals with a reliable, easy-to-use source of information. Divided into three sections, the handbook covers:
This second edition of Finite Element Analysis and Design of Steel and Steel-Concrete Composite Bridges is brought fully up-to-date and provides structural engineers, academics, practitioners, and researchers with a detailed, robust, and comprehensive combined finite modeling and design approach. The book's eight chapters begin with an overview of the various forms of modern steel and steel-concrete composite bridges, current design codes (American, British, and Eurocodes), nonlinear material behavior of the bridge components, and applied loads and stability of steel and steel-concrete composite bridges. This is followed by self-contained chapters concerning design examples of steel and steel-concrete composite bridge components as well as finite element modeling of the bridges and their components. The final chapter focuses on finite element analysis and the design of composite highway bridges with profiled steel sheeting. This volume will serve as a valuable reference source addressing the issues, problems, challenges, and questions on how to enhance the design of steel and steel-concrete composite bridges, including highway bridges with profiled steel sheeting, using finite element modeling techniques. - Provides all necessary information to understand relevant terminologies and finite element modeling for steel and composite bridges - Discusses new designs and materials used in highway and railway bridge - Illustrates how to relate the design guidelines and finite element modeling based on internal forces and nominal stresses - Explains what should be the consistent approach when developing nonlinear finite element analysis for steel and composite bridges - Contains extensive case studies on combining finite element analysis with design for steel and steel-concrete composite bridges, including highway bridges with profiled steel sheeting