Advanced Analysis and Design of Steel Frames
1. Edition April 2007
384 Pages, Hardcover
Wiley & Sons Ltd
Short Description
The book begins with an introductory chapter to provide you with background knowledge of the different types of steel frames. The following chapter introduces the elastic stiffness equation for beam element, both general and special form is explained, before providing you with application examples of the equation. Next, Beam-column sections are discussed with reference to yielding and hysteric models. The following chapters cover the 'elasto-plastic stiffness equation for beam element', and the 'elastic and elasto-plastic stiffness equations for column element'. Joint panels and beam-to-column connections and their effects on the stiffness of beam columns and beam drift are presented. The concluding chapters focus on the planar frame system and different methods of analysis including elastic analysis, nonlinear analysis, and seismic analysis of stability. The super-FEM model is introduced in the final chapter, and its principles and analysis procedure are discussed in detail.
Steel frames are used in many commercial high-rise buildings, as well as industrial structures, such as ore mines and oilrigs. Enabling construction of ever lighter and safer structures, steel frames have become an important topic for engineers.
This book, split into two parts covering advanced analysis and advanced design of steel frames, guides the reader from a broad array of frame elements through to advanced design methods such as deterministic, reliability, and system reliability design approaches. This book connects reliability evaluation of structural systems to advanced analysis of steel frames, and ensures that the steel frame design described is founded on system reliability.
Important features of the this book include:
* fundamental equations governing the elastic and elasto-plastic equilibrium of beam, sheer-beam, column, joint-panel, and brace elements for steel frames;
* analysis of elastic buckling, elasto-plastic capacity and earthquake-excited behaviour of steel frames;
* background knowledge of more precise analysis and safer design of steel frames against gravity and wind, as well as key discussions on seismic analysis.
* theoretical treatments, followed by numerous examples and applications;
* a review of the evolution of structural design approaches, and reliability-based advanced analysis, followed by the methods and procedures for how to establish practical design formula.
Advanced Design and Analysis of Steel Frames provides students, researchers, and engineers with an integrated examination of this core civil and structural engineering topic. The logical treatment of both advanced analysis followed by advanced design makes this an invaluable reference tool, comprising of reviews, methods, procedures, examples, and applications of steel frames in one complete volume.
Symbols.
Part One Advanced Analysis of Steel Frames.
Chapter 1 Introduction.
Chapter 2 Elastic Stiffness Equation of Prismatic Beam Element.
Chapter 3 Elastic Stiffness Equation of Tapered Beam Element.
Chapter 4 Elastic Stiffness Equation of Composite Beam Element.
Chapter 5 Sectional Yielding and Hysteretic Model of Steel Beam Columns.
Chapter 6 Hysteretic Behaviour of Composite Beams.
Chapter 7 Elasto-Plastic Stiffness Equation of Beam Element.
Chapter 8 Elastic and Elasto-Plastic Stiffness Equations of Column Element.
Chapter 9 Effects of Joint Panel and Beam-Column Connection.
Chapter 10 Brace Element and its Elastic and Elasto-Plastic Stiffness Equations.
Chapter 11 Shear Beam and its Elastic and Elasto-Plastic Stiffness Equations.
Chapter 12 Elastic Stability Analysis of Planar Steel Frames.
Chapter 13 Nonlinear Analysis of Planar Steel Frames.
Chapter 14 Seismic Response Analysis of Planar Steel Frames.
Chapter 15 Analysis Model for Space Steel Frames.
Part Two Advanced Design of Steel Frames.
Chapter 16 Development of Structural Design Approach.
Chapter 17 Structural System Reliability Calculation.
Chapter 18 System Reliability Assessment of Steel Frames.
Chapter 19 Reliability-Based Advanced Design of Steel Frames.
References/Bibliography.
Author Index.
Subject Index.
