Guide to Stability Design Criteria for Metal Structures by Ronald D. Ziemian

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Guide to Stability Design Criteria for Metal Structures by Ronald D. Ziemian

PDF Free Download | Guide to Stability Design Criteria for Metal Structures, Sixth Edition by Ronald D. Ziemian

Contents of Stability Design Criteria for Metal Structures

  • CHAPTER 1. INTRODUCTION
  • From the Metal Column to the Structural System
  • Scope and Summary of the Guide
  • Mechanical Properties of Structural Metals
  • Definitions
  • Postbuckling Behavior
  • Credits for the Chapters in the Sixth Edition of the SSRC Guide
  • References
  • CHAPTER 2. STABILITY THEORY
  • Introduction
  • Bifurcation Buckling
  • Limit-Load Buckling
  • References
  • CHAPTER 3. CENTRALLY LOADED COLUMNS
  • Introduction
  • Column Strength
  • Influence of Imperfections
  • Influence of End Restraint
  • Strength Criteria for Steel Columns
  • Aluminum Columns
  • Stainless Steel Columns
  • Tapered Columns
  • Built-Up Columns
  • Stepped Columns
  • Guyed Towers
  • References
  • CHAPTER 4. PLATES
  • Introduction
  • Elastic Local Buckling of Flat Plates
  • Inelastic Buckling, Postbuckling, and Strength of Flat Plates
  • Buckling, Postbuckling, and Strength of
  • Stiffened Plates
  • Buckling of Orthotropic Plates
  • Interaction between Plate Elements
  • References
  • CHAPTER 5. BEAMS
  • Introduction
  • Elastic Lateral–Torsional Buckling, Prismatic
  • I-Section Members
  • Fundamental Comparison of Design Standards,
  • Prismatic I-Section Members
  • Stepped, Variable Web Depth and Other
  • Nonprismatic I-Section Members
  • Continuous-Span Composite I-Section Members
  • Beams with Other Cross-Sectional Types
  • Design for Inelastic Deformation Capacity
  • Concluding Remarks
  • References
  • CHAPTER 6. PLATE GIRDERS
  • Introduction
  • Preliminary Sizing
  • Web Buckling as a Basis for Design
  • Shear Strength of Plate Girders
  • Girders with No Intermediate Stiffeners
  • Steel Plate Shear Walls
  • Bending Strength of Plate Girders
  • Combined Bending and Shear
  • Plate Girders with Longitudinal Stiffeners
  • End Panels
  • Design of Stiffeners
  • Panels under Edge Loading
  • Fatigue
  • Design Principles and Philosophies
  • Girders with Corrugated Webs
  • Research Needs
  • References
  • CHAPTER 7. BOX GIRDERS
  • Introduction
  • Bases of Design
  • Buckling of Wide Flanges
  • Bending Strength of Box Girders
  • Nominal Shear Strength of Box Girders
  • Strength of Box Girders under Combined
  • Bending, Compression, and Shear
  • Influence of Torsion on Strength of Box Girders
  • Diaphragms
  • Top-Flange Lateral Bracing of Quasi-Closed
  • Sections
  • Research Needs
  • References
  • CHAPTER 8. BEAM-COLUMNS
  • Introduction
  • Strength of Beam-Columns
  • Uniaxial Bending: In-Plane Strength
  • Uniaxial Bending: Lateral–Torsional Buckling
  • Equivalent Uniform Moment Factor
  • Biaxial Bending
  • Special Topics
  • References
  • CHAPTER 9. HORIZONTALLY CURVED STEEL GIRDERS
  • Introduction
  • Historical Review
  • Fabrication and Construction
  • Analysis Methods
  • Stability of Curved I-Girders
  • Stability of Curved Box Girders
  • Concluding Remarks
  • References
  • CHAPTER 10. COMPOSITE COLUMNS AND STRUCTURAL
  • SYSTEMS
  • Introduction
  • U S –Japan Research Program
  • Cross-Sectional Strength of Composite Sections
  • Other Considerations for Cross-Sectional Strength
  • Length Effects
  • Force Transfer between Concrete and Steel
  • Design Approaches
  • Structural Systems and Connections for
  • Composite and Hybrid Structures
  • Summary
  • References
  • CHAPTER 11. STABILITY OF ANGLE MEMBERS
  • Introduction
  • Review of Experimental and Analytical Research
  • Single-Angle Compression Members
  • Current Industry Practice for Hot-Rolled
  • Single-Angle Members in the United States
  • Design Criteria for Hot-Rolled Angle Columns in Europe, Australia, and Japan
  • Design of Axially Loaded Cold-Formed Single
  • Angles
  • Concluding Remarks on the Compressive
  • Strength of Eccentrically Loaded Single-Angle
  • Members
  • Multiple Angles in Compression
  • Angles in Flexure
  • References
  • CHAPTER 12. BRACING
  • Introduction
  • Background
  • Safety Factors, φ Factors, and Definitions
  • Relative Braces for Columns or Frames
  • Discrete Bracing Systems for Columns
  • Continuous Column Bracing
  • Lean-on Systems
  • Columns Braced on One Flange
  • Beam Buckling and Bracing
  • Beam Bracing
  • References
  • CHAPTER 13. THIN-WALLED METAL CONSTRUCTION
  • Introduction
  • Member Stability Modes (Elastic)
  • Effective Width Member Design
  • Direct Strength Member Design
  • Additional Design Considerations
  • Structural Assemblies
  • Stainless Steel Structural Members
  • Aluminum Structural Members
  • Torsional Buckling
  • References
  • CHAPTER 14. CIRCULAR TUBES AND SHELLS
  • Introduction
  • Description of Buckling Behavior
  • Unstiffened or Heavy-Ring-Stiffened Cylinders
  • General Instability of Ring-Stiffened Cylinders
  • Stringer- or Ring-and-Stringer-Stiffened Cylinders
  • Effects on Column Buckling
  • Cylinders Subjected to Combined Loadings
  • Strength and Behavior of Damaged and
  • Repaired Tubular Columns
  • References
  • CHAPTER 15. MEMBERS WITH ELASTIC LATERAL RESTRAINTS
  • Introduction
  • Buckling of the Compression Chord
  • Effect of Secondary Factors on Buckling Load
  • Top-Chord Stresses due to Bending of Floor
  • Beams and to Initial Chord Eccentricities
  • Design Example
  • Plate Girder with Elastically Braced
  • Compression Flange
  • Guyed Towers
  • References
  • CHAPTER 16. FRAME STABILITY
  • Introduction
  • Methods of Analysis
  • Frame Behavior
  • Frame Stability Assessment Using
  • Second-Order Analysis
  • Overview of Current Code Provisions
  • Structural Integrity and Disproportionate
  • Collapse Resistance
  • Concluding Remarks
  • References
  • CHAPTER 17. ARCHES
  • Introduction
  • In-Plane Stability of Arches
  • Out-of-Plane Stability of Arches
  • Braced Arches and Requirements for Bracing Systems
  • Ultimate Strength of Steel Arch Bridges
  • References
  • CHAPTER 18. DOUBLY CURVED SHELLS AND SHELL-LIKE STRUCTURES
  • Introduction
  • The Basic Problem
  • Finite Element Method
  • Design Codes
  • Design Aids
  • Reticulated Shells
  • Design Trends and Research Needs
  • References
  • CHAPTER 19. STABILITY UNDER SEISMIC LOADING
  • Introduction
  • Design for Local and Member Stability
  • Global System Stability (P− Effects)
  • References
  • CHAPTER 20. STABILITY ANALYSIS BY THE FINITE ELEMENT METHOD
  • Introduction
  • Nonlinear Analysis
  • Linearized Eigenvalue Buckling Analysis
  • References
  • B Technical Memorandum No : The Basic Column Formula
  • B Technical Memorandum No : Notes on the Compression Testing of Metals
  • B Technical Memorandum No : Stub-Column Test Procedure

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