Image from Coce

Structural stability of steel : concepts and applications for structural engineers / Theodore V. Galambos, Andrea E. Surovek.

By: Contributor(s): Material type: TextTextPublisher: Hoboken, N.J. : John Wiley & Sons, [2008]Copyright date: ©2008Description: x, 373 pages : illustrations ; 25 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 0470037784
  • 9780470037782
Subject(s): DDC classification:
  • 624.1821 22
LOC classification:
  • TA684 .G26 2008
Online resources:
Contents:
1. Fundamentals of Stability Theory -- 1.1. Introduction -- 1.2. Basics of Stability Behavior: The Spring-Bar System -- 1.3. Fundamentals of Post-Buckling Behavior -- 1.4. Snap-Through Buckling -- 1.5. Multi-Degree-of-Freedom Systems -- 1.6. Summary -- 2. Elastic Buckling of Planar Columns -- 2.1. Introduction -- 2.2. Large-Deflection Solution of an Elastic Column -- 2.3. Differential Equation of Planar Flexure -- 2.4. The Basic Case: Pin-Ended Column -- 2.5. Five Fundamental Cases -- 2.6. The Effect of Imperfections -- 2.7. Stability of a Rigid Frame -- 2.8. End-Restrained Columns -- 2.9. Restrained Column Examples -- 2.10. Continuously Restrained Columns -- 2.11. Summary -- 3. Inelastic Column Buckling -- 3.1. Tangent and Reduced Modulus Concepts -- 3.2. Shanley's Contribution -- 3.3. Example Illustrating the Tangent Modulus and the Reduced Modulus Concepts -- 3.4. Buckling Strength of Steel Columns -- 3.5. Illustration of the Effect of Residual Stresses on the Buckling Strength of Steel Columns -- 3.6. Effect of Initial Out-of-Straightness and Load Eccentricity -- 3.7. Design Formulas For Metal Columns -- 3.8. Summary -- 4. Beam-Columns -- 4.1. Introduction -- 4.2. General Discussion of the Behavior of Beam-Columns -- 4.3. Elastic In-Plane Behavior of Beam-Columns -- 4.4. Elastic Limit Interaction Relationships -- 4.5. Example Problems of Beam-Column Strength -- 4.6. Systematic Methods of Analysis: Flexibility Method -- 4.7. Systematic Methods of Analysis: The Stiffness Method -- 4.8. Inelastic Strength of Beam-Columns -- 4.9. Design of Beam-Columns -- 5. Frame Stability -- 5.1. Introduction -- 5.2. Two-Bay Frame Examples -- 5.3. Summary -- 5.4. Selected References on Frames with Partially Restrained Joints -- 6. Lateral-Torsional Buckling -- 6.1. Introduction -- 6.2. Basic Case: Beams Subjected to Uniform Moment -- 6.3. The Effect of Boundary Conditions -- 6.4. The Effect of Loading Conditions -- 6.5. Lateral-Torsional Buckling of Singly-Symmetric Cross-Sections -- 6.6. Beam-Columns and Columns -- 6.7. Inelastic Lateral-Torsional Buckling -- 6.8. Summary -- 7. Bracing -- 7.1. Introduction -- 7.2. Discrete Bracing -- 7.3. Relative Bracing -- 7.4. Lean-on Bracing -- 7.5. Effects of Imperfections -- 7.6. Column Bracing Provisions -- 7.7. Beam Bracing -- 7.8. AISC Design Provisions for Beam Bracing -- 7.9. Summary -- 8. Specification-Based Applications of Stability in Steel Design -- 8.1. Introduction -- 8.2. Development of the Beam-Column Interaction Equations -- 8.3. Assessment of Column Strength -- 8.4. Assessment of Beam Strength -- 8.5. Specification-Based Approaches for Stability Assessment -- 8.6. Effective Length Factors, K-factors -- 8.7. Design Assessment by Two Approaches -- 8.8. Frame Design Requirements in Canada and Europe -- 8.9. Summary.
Summary: "Practical guide to structural stability theory for the design of safe steel structures Not only does this book provide readers with a solid foundation in structural stability theory, it also offers them a practical, working knowledge of how this theory translates into design specifications for safe steel structures. Structural Stability of Steel features detailed discussions of the elastic and inelastic stability of steel columns, beams, beam-columns, and frames alongside numerous worked examples. For each type of structural member or system, the authors set forth recommended design rules with clear explanations of how they were derived."--Publisher's website.
Tags from this library: No tags from this library for this title. Log in to add tags.
Holdings
Item type Current library Call number Copy number Status Date due Barcode
Book City Campus City Campus Main Collection 624.1821 GAL (Browse shelf(Opens below)) 1 Available A441761B

Includes bibliographical references (pages 364-368) and index.

1. Fundamentals of Stability Theory -- 1.1. Introduction -- 1.2. Basics of Stability Behavior: The Spring-Bar System -- 1.3. Fundamentals of Post-Buckling Behavior -- 1.4. Snap-Through Buckling -- 1.5. Multi-Degree-of-Freedom Systems -- 1.6. Summary -- 2. Elastic Buckling of Planar Columns -- 2.1. Introduction -- 2.2. Large-Deflection Solution of an Elastic Column -- 2.3. Differential Equation of Planar Flexure -- 2.4. The Basic Case: Pin-Ended Column -- 2.5. Five Fundamental Cases -- 2.6. The Effect of Imperfections -- 2.7. Stability of a Rigid Frame -- 2.8. End-Restrained Columns -- 2.9. Restrained Column Examples -- 2.10. Continuously Restrained Columns -- 2.11. Summary -- 3. Inelastic Column Buckling -- 3.1. Tangent and Reduced Modulus Concepts -- 3.2. Shanley's Contribution -- 3.3. Example Illustrating the Tangent Modulus and the Reduced Modulus Concepts -- 3.4. Buckling Strength of Steel Columns -- 3.5. Illustration of the Effect of Residual Stresses on the Buckling Strength of Steel Columns -- 3.6. Effect of Initial Out-of-Straightness and Load Eccentricity -- 3.7. Design Formulas For Metal Columns -- 3.8. Summary -- 4. Beam-Columns -- 4.1. Introduction -- 4.2. General Discussion of the Behavior of Beam-Columns -- 4.3. Elastic In-Plane Behavior of Beam-Columns -- 4.4. Elastic Limit Interaction Relationships -- 4.5. Example Problems of Beam-Column Strength -- 4.6. Systematic Methods of Analysis: Flexibility Method -- 4.7. Systematic Methods of Analysis: The Stiffness Method -- 4.8. Inelastic Strength of Beam-Columns -- 4.9. Design of Beam-Columns -- 5. Frame Stability -- 5.1. Introduction -- 5.2. Two-Bay Frame Examples -- 5.3. Summary -- 5.4. Selected References on Frames with Partially Restrained Joints -- 6. Lateral-Torsional Buckling -- 6.1. Introduction -- 6.2. Basic Case: Beams Subjected to Uniform Moment -- 6.3. The Effect of Boundary Conditions -- 6.4. The Effect of Loading Conditions -- 6.5. Lateral-Torsional Buckling of Singly-Symmetric Cross-Sections -- 6.6. Beam-Columns and Columns -- 6.7. Inelastic Lateral-Torsional Buckling -- 6.8. Summary -- 7. Bracing -- 7.1. Introduction -- 7.2. Discrete Bracing -- 7.3. Relative Bracing -- 7.4. Lean-on Bracing -- 7.5. Effects of Imperfections -- 7.6. Column Bracing Provisions -- 7.7. Beam Bracing -- 7.8. AISC Design Provisions for Beam Bracing -- 7.9. Summary -- 8. Specification-Based Applications of Stability in Steel Design -- 8.1. Introduction -- 8.2. Development of the Beam-Column Interaction Equations -- 8.3. Assessment of Column Strength -- 8.4. Assessment of Beam Strength -- 8.5. Specification-Based Approaches for Stability Assessment -- 8.6. Effective Length Factors, K-factors -- 8.7. Design Assessment by Two Approaches -- 8.8. Frame Design Requirements in Canada and Europe -- 8.9. Summary.

"Practical guide to structural stability theory for the design of safe steel structures Not only does this book provide readers with a solid foundation in structural stability theory, it also offers them a practical, working knowledge of how this theory translates into design specifications for safe steel structures. Structural Stability of Steel features detailed discussions of the elastic and inelastic stability of steel columns, beams, beam-columns, and frames alongside numerous worked examples. For each type of structural member or system, the authors set forth recommended design rules with clear explanations of how they were derived."--Publisher's website.

Machine converted from AACR2 source record.

There are no comments on this title.

to post a comment.

Powered by Koha