Structural Renovation of Buildings : Methods, Details, and Design Examples, Second Edition /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Newman, Alexander (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2021].
Edición:2nd edition.
Temas:
Buildings > Repair and reconstruction.
Concrete construction.
SCIENCE / Mechanics / Statics
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • Dedication
  • About the Author
  • Contents
  • Preface
  • 1 The Challenge of Renovation
  • 1.1 Terminology
  • 1.2 When to Renovate
  • 1.3 Beginning a Renovation Project
  • 1.4 Typical Structural Challenges
  • 1.5 Role of Building Codes in Renovation
  • 1.6 Some Renovation Provisions of Previous Building Codes
  • 1.7 The International Existing Building Code: General Issues
  • 1.8 IEBC Provisions for Repairs (IEBC Chapter 4)
  • 1.9 IEBC Provisions for Alterations
  • 1.10 Change of Occupancy (IEBC Chapter 10)
  • 1.11 Additions (IEBC Chapter 11)
  • 1.12 Design Examples
  • 1.13 Renovate or Rebuild?
  • References
  • 2 Investigating Existing Conditions
  • 2.1 Why Investigate?
  • 2.2 Assessing Building Condition
  • 2.3 Material Properties in Steel Systems
  • 2.4 Concrete Framing
  • 2.5 Load Testing of Concrete Structures
  • 2.6 Post-Tensioned Concrete Framing
  • 2.7 Wood Framing
  • 2.8 Masonry
  • 2.9 Building Envelope
  • References
  • 3 Renovating Steel-Framed Buildings
  • 3.1 Steel: The Venerable Material
  • 3.2 Past Design Methods and Allowable Stresses for Iron and Steel Beams
  • 3.3 Early Iron and Steel Columns
  • 3.4 Properties of Early Fasteners
  • 3.5 Open-Web Joists
  • 3.6 Strengthening Floors and Roofs
  • 3.7 Reinforcing Steel Members by Welding
  • 3.8 Reinforcing Beams by Composite Action with Concrete
  • 3.9 Strengthening Beam Connections
  • 3.10 Composite Steel-Concrete Columns
  • 3.11 Openings in Existing Steel Beams
  • 3.12 Steel Corrosion: Evaluation and Protection
  • 3.13 Thermal Prestressing of Steel Structures
  • References
  • 4 Strengthening Concrete Buildings
  • 4.1 Historical Perspective
  • 4.2 Design Methods of the Past
  • 4.3 Properties of Old Concrete and Reinforcing Steel
  • 4.4 Some Early Proprietary Systems
  • 4.5 Strengthening Concrete Beams
  • 4.6 Strengthening Structural Slabs
  • 4.7 Strengthening Concrete Columns
  • 4.8 Openings in Existing Slabs
  • References
  • 5 Repairing Deteriorated Concrete
  • 5.1 Overview
  • 5.2 Repairing Cracks
  • 5.3 Corrosion of Reinforcement and Its Effects on Concrete
  • 5.4 Patching Spalls and Deteriorated Areas
  • 5.5 Cathodic Protection and Electrochemical Chloride Extraction
  • 5.6 Corrosion Inhibitors
  • 5.7 Other Types of Damage to Concrete
  • 5.8 Materials for Concrete Repair
  • 5.9 Durability of Repairs
  • 5.10 Systematic Maintenance Programs
  • References
  • 6 Renovating Slabs on Grade
  • 6.1 Introduction
  • 6.2 Field Investigation
  • 6.3 Cracking
  • 6.4 Surface Deterioration
  • 6.5 Slab Settlement, Heaving, and Curling
  • 6.6 Joint Failures
  • 6.7 Water Penetration or Emission
  • 6.8 Chemical Attack
  • 6.9 Slab Replacement
  • 6.10 Slab Overlays
  • 6.11 Improving Abrasion Resistance
  • 6.12 Repair of Deteriorated Overlays, Toppings, and Hardeners
  • References
  • 7 Renovating Post-Tensioned Concrete
  • 7.1 System Overview
  • 7.2 Evolution of Post-Tensioned Structures
  • 7.3 Typical Reasons for Repair of Post-Tensioned Buildings
  • 7.4 Planning for Repairs
  • 7.5 Nondestructive Testing
  • 7.6 Destructive Testing
  • 7.7 Repair Methods
  • 7.8 A Step-by-Step Example: Replacing Post-Tensioned Stressing-End Anchorage
  • References
  • 8 Renovating Wood Structures
  • 8.1 Historical Background
  • 8.2 Wood Deterioration
  • 8.3 Detecting Deterioration
  • 8.4 Preventing Deterioration
  • 8.5 Shrinkage and Defects
  • 8.6 Repairing Wood Members
  • 8.7 Strengthening Wood Members
  • 8.8 Renovating Wood Trusses
  • 8.9 Case Study 1: Repairing Termite Damage in Trusses
  • 8.10 Case Study 2: Restoring Fire Damage to the Exeter Street Theater
  • References
  • 9 Renovating Masonry
  • 9.1 Masonry as a Construction Material
  • 9.2 Evolution of Masonry Design Methods
  • 9.3 Evaluation of Masonry Structures
  • 9.4 Masonry Repair
  • 9.5 Strengthening Masonry Structural Elements
  • 9.6 Repairing Masonry Arches
  • 9.7 Other Masonry Renovation Tasks
  • References
  • 10 Renovating Metal Building Systems
  • 10.1 Introduction
  • 10.2 Evolution of Metal Building Systems
  • 10.3 Primary Frames
  • 10.4 Expansion of Metal Building Systems
  • 10.5 Lateral Stability
  • 10.6 Secondary Framing
  • 10.7 Wall Materials
  • 10.8 Metal Roofing
  • 10.9 Insulation and Vapor Retarders
  • 10.10 Renovation Checklist
  • 10.11 Case Study
  • References
  • 11 Strengthening Lateral Load?Resisting Systems
  • 11.1 Lateral-Load Basics
  • 11.2 Lateral Load?Resisting Systems
  • 11.3 A Brief History of Wind and Seismic Codes
  • 11.4 Code Provisions for Seismic Upgrading
  • 11.5 Typical Tasks for Lateral-Load Upgrading
  • 11.6 Reinforcing Diaphragms
  • 11.7 Reinforcing Wood, Steel, and Masonry Buildings
  • 11.8 Reinforcing Concrete Buildings
  • 11.9 Energy-Dissipating Devices
  • 11.10 Seismic Isolation
  • 11.11 Reinforcing Nonstructural Elements
  • References
  • 12 Case Studies in Seismic Upgrading
  • 12.1 Case 1: Seismic Upgrading of a Former Industrial Building
  • 12.2 Case 2: Proposed Renovation of an Unreinforced-Masonry Building
  • 12.3 Case 3: Seismic Upgrade of Terminal 1, Oakland International Airport
  • 12.4 Case 4: Seismic Retrofit of the Administration Building, San Francisco State University
  • 13 Renovating Building Fa?ades
  • 13.1 General Issues
  • 13.2 Curtain-Wall Problems Caused by Structural Forces and Movements
  • 13.3 Water Leakage
  • 13.4 Rehabilitating Solid Masonry Walls
  • 13.5 Brick-Veneer Walls with CMU Backup
  • 13.6 Brick-Veneer Walls with Steel Studs
  • 13.7 Repairing Brick-Veneer Walls
  • 13.8 Repairing Stone and Stone-Panel Walls
  • 13.9 Rehabilitating Exterior Insulation and Finish Systems
  • 13.10 Rehabilitating Other Wall Types
  • References
  • Index.

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