Handbook of Structural Engineering, 2nd Edition (I.E.)

Title: Handbook of Structural Engineering, 2nd Edition (I.E.)
Author: Eric M Lui, Wai-Fah Chen
ISBN: 0849315697 / 9780849315695
Format: Hard Cover
Pages: 1768
Publisher: CRC Press
Year: 2010
Availability: Out of Stock

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Covers not only traditional, but also novel and innovative approaches to analysis, design, and rehabilitation problems. Stresses professional applications in an easy-to-read, ready-to-use format. Contains nearly 1000 tables, charts, and illustrations along with virtually every equation structural engineers need.

Continuing the tradition of the best-selling Handbook of Structural Engineering, this second edition is a comprehensive reference to the broad spectrum of structural engineering, encapsulating the theoretical, practical, and computational aspects of the field. The authors address a myriad of topics, covering both traditional and innovative approaches to analysis, design, and rehabilitation.

The second edition has been expanded and reorganized to be more informative and cohesive. It also follows the developments that have emerged in the field since the previous edition, such as advanced analysis for structural design, performance-based design of earthquake-resistant structures, lifecycle evaluation and condition assessment of existing structures, the use of high-performance materials for construction, and design for safety.

Additionally, the book includes numerous tables, charts, and equations, as well as extensive references, reading lists, and websites for further study or more in-depth information. Emphasizing practical applications and easy implementation, this text reflects the increasingly global nature of engineering, compiling the efforts of an international panel of experts from industry and academia. This is a necessity for anyone studying or practicing in the field of structural engineering.

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Fundamental theories of structural dynamics
Advanced analysis
Wind and earthquake-resistant design
Design of prestressed concrete, masonry, timber, and glass structures
Properties, behavior, and use of high-performance steel, concrete, and fiber-reinforced polymers
Semirigid frame structures
Structural bracing
Structural design for fire safety

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Preface
The Editors
Contributors
List of Abbreviations

Section 1 : Structural Analysis
Chapter 1 : Structural Fundamentals
Chapter 2 : Structural Analysis
Chapter 3 : Structural Dynamics

Section 2 : Structural Design
Chapter 4 : Steel Structures
Chapter 5 : Steel Frame Design Using Advanced Analysis
Chapter 6 : Cold-Formed Steel Structures
Chapter 7 : Reinforced Concrete Structures
Chapter 8 : Prestressed Concrete
Chapter 9 : Masonry Structures
Chapter 10 : Timber Structures
Chapter 11 : Aluminum Structures
Chapter 12 : Reliability-Based Structural Design
Chapter 13 : Structure Configuration Based on Wind Engineering

Section 3 : Structural Design Using High-Performance Materials
Chapter 14 : High-Performance Steel
Chapter 15 : High-Performance Concrete
Chapter 16 : Fiber-Reinforced Polymer Composites

Section 4 : Earthquake Engineering and Design
Chapter 17 : Fundamentals of Earthquake Engineering
Chapter 18 : Earthquake Damage to Structures
Chapter 19 : Seismic Design of Buildings
Chapter 20 : Seismic Design of Bridges
Chapter 21 : Performance-Based Seismic Design and Evaluation of Building Structures

Section 5 : Special Structures
Chapter 22 : Multistory Frame Structures
Chapter 23 : Semirigid Frame Structures
Chapter 24 : Space Frame Structures
Chapter 25 : Bridge Structures
Chapter 26 : Cable-Supported Bridges
Chapter 27 : Cooling Tower Structures
Chapter 28 : Tunnel Structures
Chapter 29 : Glass Structures

Section 6 : Special Topics
Chapter 30 : Welded Tubular Connections — CHS Trusses
Chapter 31 : Effective Length Factors of Compression Members
Chapter 32 : Structural Bracing
Chapter 33 : Stub Girder Floor Systems
Chapter 34 : Fatigue and Fracture
Chapter 35 : Passive Energy Dissipation and Active Control
Chapter 36 : Life Cycle Evaluation and Condition Assessment of Structures
Chapter 37 : Structural Design for Fire Safety

Index