Design of Wood Structures- ASD/LRFD, Eighth Edition

Responsibility Donald E. Breyer, Kelly Cobeen, Zeno Martin. Language English. In English. Edition 8th edition. Publication New York, N.Y. : McGraw-Hill Education, 2020. Copyright notice ©2020 Physical description 1 online resource (896 pages) : 400 illustrations.

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Description

Creators/Contributors

Author/Creator Breyer, Donald E., author. Contributor Cobeen, Kelly, author. Martin, Zeno, author.

Contents/Summary

• Cover --
• Title Page
• Copyright Page
• Dedication
• Contents
• Preface
• Nomenclature
• 1 Wood Buildings and Design Criteria
• 1.1 Introduction
• 1.2 Types of Buildings
• 1.3 Required and Recommended References
• 1.4 Building Codes and Design Criteria
• 1.5 ASD and LRFD
• 1.6 Organization of the Text
• 1.7 Structural Calculations
• 1.8 Detailing Conventions
• 1.9 Fire-Resistive Requirements
• 1.10 Industry Organizations
• 1.11 References
• 2 Design Loads
• 2.1 Introduction
• 2.2 Dead Loads
• 2.3 Live Loads
• 2.4 Snow Loads
• 2.5 Soil Loads and Hydrostatic Pressure
• 2.6 Loads Due to Fluids
• 2.7 Rain Loads
• 2.8 Flood Loads
• 2.9 Tsunami Loads
• 2.10 Self-Straining Loads
• 2.11 Wind Loads?Introduction
• 2.12 Wind Forces?Main Wind Force Resisting System
• 2.13 Wind Forces?Components and Cladding
• 2.14 Seismic Forces?Introduction
• 2.15 Seismic Forces
• 2.16 Seismic Forces?Primary System
• 2.17 Seismic Forces?Components
• 2.18 Load Combinations
• 2.19 Serviceability/Deflection Criteria
• 2.20 References
• 2.21 Problems
• 3 Behavior of Structures under Loads and Forces
• 3.1 Introduction
• 3.2 Structures Subject to Vertical Loads
• 3.3 Structures Subject to Lateral Forces
• 3.4 Lateral Forces in Buildings with Diaphragms and Shearwalls
• 3.5 Design Problem: Lateral Forces on One-Story Building
• 3.6 Design Problem: Lateral Forces on Two-Story Building
• 3.7 References
• 3.8 Problems
• 4 Properties of Wood and Lumber Grades
• 4.1 Introduction
• 4.2 Design Specification
• 4.3 Methods of Grading Structural Lumber
• 4.4 Derivation of Design Values
• 4.5 Species and Species Groups
• 4.6 Cellular Makeup
• 4.7 Moisture Content and Shrinkage
• 4.8 Effect of Moisture Content on Lumber Sizes
• 4.9 Durability of Wood and the Need for Preservative Treatment
• 4.10 Growth Characteristics of Wood
• 4.11 Sizes of Structural Lumber
• 4.12 Size Categories and Commercial Grades
• 4.13 General Notation
• 4.14 Wet Service Factor CM
• 4.15 Load Duration Factor CD (ASD Only)
• 4.16 Time Effect Factor ? (LRFD Only)
• 4.17 Size Factor CF
• 4.18 Repetitive Member Factor Cr
• 4.19 Flat Use Factor Cfu
• 4.20 Temperature Factor Ct
• 4.21 Incising Factor Ci
• 4.22 Resistance Factor f (LRFD Only)
• 4.23 Format Conversion Factor KF (LRFD Only)
• 4.24 Design Problem: Adjusted Design Values
• 4.25 References
• 4.26 Problems
• 5 Structural Glued Laminated Timber
• 5.1 Introduction
• 5.2 Sizes of Glulam Members
• 5.3 Resawn Glulam
• 5.4 Fabrication of Glulams
• 5.5 Grades of Glulam Members
• 5.6 Appearance Classification
• 5.7 Adjustment Factors for Glulam
• 5.8 Design Problem: Adjusted Design Values
• 5.9 References
• 5.10 Problems
• 6 Beam Design
• 6.1 Introduction
• 6.2 Bending
• 6.3 Lateral Stability
• 6.4 Adjusted Bending Design Value Summary
• 6.5 Shear
• 6.6 Deflection
• 6.7 Design Summary
• 6.8 Bearing at Supports
• 6.9 Design Problem: Sawn Beam
• 6.10 Design Problem: Rough-Sawn Beam Using ASD
• 6.11 Design Problem: Notched Beam
• 6.12 Design Problem: Sawn-Beam Analysis
• 6.13 Design Problem: Glulam Beam with Full Lateral Support
• 6.14 Design Problem: Glulam Beam with Lateral Support at 8 ft-0 in.
• 6.15 Design Problem: Glulam Beam with Lateral Support at 48 ft-0 in.
• 6.16 Design Problem: Glulam with Compression Zone Stressed in Tension
• 6.17 Cantilever Beam Systems
• 6.18 Lumber Roof and Floor Decking
• 6.19 Fabricated Wood Components
• 6.20 References
• 6.21 Problems
• 7 Axial Forces and Combined Bending and Axial Forces
• 7.1 Introduction
• 7.2 Axial Tension Members
• 7.3 Design Problem: Tension Member
• 7.4 Columns
• 7.5 Detailed Analysis of Slenderness Ratio
• 7.6 Design Problem: Axially Loaded Column
• 7.7 Design Problem: Capacity of a Glulam Column
• 7.8 Design Problem: Capacity of a Bearing Wall
• 7.9 Built-Up Columns
• 7.10 Combined Bending and Tension
• 7.11 Design Problem: Combined Bending and Tension
• 7.12 Combined Bending and Compression
• 7.13 Design Problem: Beam-Column
• 7.14 Design Problem: Beam-Column Action in a Stud Wall Using LRFD
• 7.15 Design Problem: Glulam Beam-Column Using ASD
• 7.16 Design for Minimum Eccentricity
• 7.17 Design Problem: Column with Eccentric Load Using ASD
• 7.18 References
• 7.19 Problems
• 8 Wood Structural Panels
• 8.1 Introduction
• 8.2 Panel Dimensions and Installation Recommendations
• 8.3 Plywood Makeup
• 8.4 OSB Makeup
• 8.5 Species Groups for Plywood
• 8.6 Veneer Grades
• 8.7 Exposure Durability Classifications
• 8.8 Panel Grades
• 8.9 Wood Structural Panel Siding
• 8.10 Roof Sheathing
• 8.11 Design Problem: Roof Sheathing
• 8.12 Floor Sheathing.

• 8.13 Design Problem: Floor Sheathing
• 8.14 Wall Sheathing and Siding
• 8.15 Stress Calculations for Wood Structural Panels
• 8.16 References
• 8.17 Problems
• 9 Diaphragms
• 9.1 Introduction
• 9.2 Basic Diaphragm Action
• 9.3 Shear Resistance
• 9.4 Diaphragm Chords
• 9.5 Design Problem: Roof Diaphragm
• 9.6 Distribution of Lateral Forces in a Shearwall
• 9.7 Collector (Strut) Forces
• 9.8 Diaphragm Deflections
• 9.9 Diaphragms with Interior Shearwalls
• 9.10 Interior Shearwalls with Collectors
• 9.11 Diaphragm Flexibility
• 9.12 References
• 9.13 Problems
• 10 Shearwalls
• 10.1 Introduction
• 10.2 Basic Shearwall Action
• 10.3 Shearwalls Using Wood Structural Panels
• 10.4 Other Sheathing Materials
• 10.5 Shearwall Chord Members
• 10.6 Design Problem: Shearwall
• 10.7 Alternate Shearwall Design Methods
• 10.8 Anchorage Considerations
• 10.9 Vertical (Gravity) Loads
• 10.10 Lateral Forces Parallel to a Wall
• 10.11 Shearwall Deflection
• 10.12 Lateral Forces Perpendicular to a Wall
• 10.13 References
• 10.14 Problems
• 11 Wood Connections?Background
• 11.1 Introduction
• 11.2 Types of Fasteners and Connections
• 11.3 Yield Model for Laterally Loaded Fasteners
• 11.4 Factors Affecting Strength in Yield Model
• 11.5 Dowel Bearing Strength
• 11.6 Plastic Hinge in Fastener
• 11.7 Yield Limit Mechanisms
• 11.8 References
• 11.9 Problems
• 12 Nailed and Stapled Connections
• 12.1 Introduction
• 12.2 Types of Nails
• 12.3 Power-Driven Nails and Staples
• 12.4 Yield Limit Equations for Nails
• 12.5 Applications of Yield Limit Equations
• 12.6 Adjustment Factors for Laterally Loaded Nails
• 12.7 Design Problem: Nail Connection for Knee Brace
• 12.8 Design Problem:?Top Plate Splice
• 12.9 Design Problem: Shearwall Chord Tie
• 12.10 Design Problem: Laterally Loaded Toenail
• 12.11 Design Problem: Laterally Loaded Connection in End Grain
• 12.12 Nail Withdrawal Connections
• 12.13 Combined Lateral and Withdrawal Loads
• 12.14 Spacing Requirements
• 12.15 Nailing Schedule
• 12.16 References
• 12.17 Problems
• 13 Bolts, Lag Bolts, and Other Connectors
• 13.1 Introduction
• 13.2 Bolt Connections
• 13.3 Bolt Yield Limit Equations for Single Shear
• 13.4 Bolt Yield Limit Equations for Double Shear
• 13.5 Adjustment Factors for Bolts
• 13.6 Tension and Shear Stresses at a Multiple Fastener Connection
• 13.7 Design Problem: Multiple-Bolt Tension Connection
• 13.8 Design Problem: Bolted Chord Splice for Diaphragm
• 13.9 Shear Stresses in a Beam at a Connection
• 13.10 Design Problem: Bolt Connection for Diagonal Brace
• 13.11 Lag Bolt Connections
• 13.12 Yield Limit Equations for Lag Bolts
• 13.13 Adjustment Factors for Lag Bolts in Shear Connections
• 13.14 Design Problem: Collector (Strut) Splice with Lag Bolts
• 13.15 Lag Bolts in Withdrawal
• 13.16 Combined Lateral and Withdrawal Loads
• 13.17 Split Ring and Shear Plate Connectors
• 13.18 Developments in Lag Screw Technology
• 13.19 References
• 13.20 Problems
• 14 Connection Details and Hardware
• 14.1 Introduction
• 14.2 Connection Details
• 14.3 Design Problem: Beam-to-Column Connection
• 14.4 Cantilever Beam Hinge Connection
• 14.5 Prefabricated Connection Hardware
• 14.6 References
• 15 Diaphragm-to-Shearwall Anchorage
• 15.1 Introduction
• 15.2 Anchorage Summary
• 15.3 Connection Details?Diaphragm to Wood-Frame Wall
• 15.4 Connection Details?Diaphragm to Concrete or Masonry Walls
• 15.5 Subdiaphragm Anchorage of Concrete and Masonry Walls
• 15.6 Design Problem: Subdiaphragm
• 15.7 References
• 16 Advanced Topics in Lateral Force Design
• 16.1 Introduction
• 16.2 Seismic Forces?Regular Structures
• 16.3 Seismic Forces?Irregular Structures
• 16.4 Overturning?Background
• 16.5 Overturning?Review
• 16.6 Overturning?Wind
• 16.7 Overturning?Seismic
• 16.8 Lateral Analysis of Nonrectangular Buildings
• 16.9 Rigid Diaphragm Analysis
• 16.10 Additional Topics in Diaphragm Design
• 16.11 References
• A Equivalent Uniform Weights of Wood Framing
• B Weights of Building Materials
• C Sl Units
• Introduction
• Notation
• Prefixes
• Conversion Factors
• Index.

Subjects

Bibliographic information

Publication date 2020 Copyright date 2020 Note Also available in print edition. Reproduction Electronic reproduction. New York, N.Y. : McGraw Hill, 2019. Mode of access: World Wide Web. System requirements: Web browser. Access may be restricted to users at subscribing institutions. Format Mode of access: Internet via World Wide Web. ISBN 9781260128680 (e-ISBN) 1260128687 (e-ISBN) 9781260128673 (print-ISBN) 1260128679 (print-ISBN)

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