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Masonry structural design / Jennifer Eisenhauer Tanner, Richard E. Klingner.
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Title:Masonry structural design / Jennifer Eisenhauer Tanner, Richard E. Klingner.
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Author/Creator:Tanner, Jennifer E., author.
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Other Contributors/Collections:Klingner, R. E., author.
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Published/Created:New York : McGraw-Hill Education, [2017]
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Holdings
Holdings Record Display
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Location:WOODWARD LIBRARY stacksWhere is this?
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Call Number: TH1199 .T36 2017
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Number of Items:1
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Status:Available
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Links:Donor bookplate
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Location:WOODWARD LIBRARY stacksWhere is this?
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Library of Congress Subjects:Masonry.
Buildings.
Structural analysis (Engineering)
Brick walls.
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Edition:Second edition.
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Description:xxix, 496 pages ; 25 cm
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Notes:Richard E. Klingner only author in previous edition.
Includes bibliographical references and index.
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ISBN:1259641759 hardcover
9781259641756 hardcover
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Contents:Machine generated contents note: 1. Basic Structural Behavior and Design of Low-Rise, Bearing Wall Buildings
1.1. Basic Structural Behavior of Low-Rise Bearing Wall Buildings
1.2. Basic Structural Design of Low-Rise, Masonry Buildings
2. Materials Used in Masonry Construction
2.1. Basic Components of Masonry
2.2. Masonry Mortar
2.3. Masonry Grout
2.4. General Information on ASTM Specifications for Masonry Units
2.5. Clay Masonry Units
2.6. Concrete Masonry Units
2.7. Properties of Masonry Assemblages
2.8. Masonry Accessory Materials
2.9. Design of Masonry Structures Requiring Little Structural Calculation
2.10. How to Increase Resistance of Masonry to Water Penetration
3. Code Basis for Structural Design of Masonry Buildings
3.1. Introduction to Building Codes in the United States
3.2. Introduction to the Calculation of Design Loading Using the 2015 IBC
3.3. Gravity Loads according to the 2015 IBC
3.4. Wind Loading according to the 2015 IBC
3.5. Earthquake Loading
3.6. Loading Combinations of the 2015 IBC
3.7. Summary of Strength Design Provisions of TMS 402-13
3.8. Summary of Allowable-Stress Design Provisions of TMS 402-13
3.9. Additional Information on Code Basis for Structural Design of Masonry Buildings
4. Introduction to MSJC Treatment of Structural Design
4.1. Basic Mechanical Behavior of Masonry
4.2. Classification of Masonry Elements
4.3. Classification of Masonry Elements by Structural Function
4.4. Classification of Masonry Elements by Design Intent
4.5. Design Approaches for Masonry Elements
4.6. How Reinforcement Is Used in Masonry Elements
4.7. How This Book Classifies Masonry Elements
5. Strength Design of Unreinforced Masonry Elements
5.1. Strength Design of Unreinforced Panel Walls
5.2. Strength Design of Unreinforced Bearing Walls
5.3. Strength Design of Unreinforced Shear Walls
5.4. Strength Design of Anchor Bolts
5.5. Required Details for Unreinforced Bearing Walls and Shear Walls
5.6. Problems
6. Strength Design of Reinforced Masonry Elements
6.1. Strength Design of Reinforced Beams and Lintels
6.2. Strength Design of Reinforced Curtain Walls
6.3. Strength Design of Reinforced Bearing Walls
6.4. Strength Design of Reinforced Shear Walls
6.5. Required Details for Reinforced Bearing Walls and Shear Walls
6.6. Problems
7. Allowable-Stress Design of Unreinforced Masonry Elements
7.1. Allowable-Stress Design of Unreinforced Panel Walls
7.2. Allowable-Stress Design of Unreinforced Bearing Walls
7.3. Allowable-Stress Design of Unreinforced Shear Walls
7.4. Allowable-Stress Design of Anchor Bolts
7.5. Required Details for Unreinforced Bearing Walls and Shear Walls
7.6. Problems
8. Allowable-Stress Design of Reinforced Masonry Elements
8.1. Review: Behavior of Cracked, Transformed Sections
8.2. Allowable-Stress Design of Reinforced Beams and Lintels
8.3. Allowable-Stress Design of Curtain Walls
8.4. Allowable-Stress Design of Reinforced Bearing Walls
8.5. Allowable-Stress Design of Reinforced Shear Walls
8.6. Required Details for Reinforced Bearing Walls and Shear Walls
8.7. Problems
9. Comparison of Design by the Allowable-Stress Approach Versus the Strength Approach
9.1. Comparison of Allowable-Stress and Strength Design of Unreinforced Panel Walls
9.2. Comparison of Allowable-Stress Design and Strength Design of Unreinforced Bearing Walls
9.3. Comparison of Allowable-Stress Design and Strength Design of Unreinforced Shear Walls
9.4. Comparison of Allowable-Stress and Strength Designs for Anchor Bolts
9.5. Comparison of Allowable-Stress and Strength Designs for Reinforced Beams and Lintels
9.6. Comparison of Allowable-Stress and Strength Designs for Reinforced Curtain Walls
9.7. Comparison of Allowable-Stress and Strength Designs for Reinforced Bearing Walls
9.8. Comparison of Allowable-Stress and Strength Designs for Reinforced Shear Walls
10. Lateral Load Analysis of Shear-Wall Structures
10.1. Introduction to Lateral Load Analysis of Shear-Wall Structures
10.2. Classification of Horizontal Diaphragms as Rigid or Flexible
10.3. Lateral Load Analysis of Shear-Wall Structures with Rigid Floor Diaphragms
10.4. Lateral Load Analysis and Design of Shear-Wall Structures with Flexible Floor Diaphragms
10.5. Simplest of All Possible Analytical Worlds
10.6. Problems
11. Design and Detailing of Floor and Roof Diaphragms
11.1. Introduction to Design of Diaphragms
11.2. Typical Connection Details for Roof and Floor Diaphragms
12. Strength Design Example: Low-Rise Building with Reinforced Concrete Masonry
12.1. Introduction
12.2. Design Steps for One-Story Building
12.3. Step 1: Choose Design Criteria
12.4. Propose Structural Systems for Gravity and Lateral Load
12.5. Step 2: Design Walls for Gravity plus Out-of-Plane Loads
12.6. Step 3: Design Lintels
12.7. Summary So Far
12.8. Step 4: Conduct Lateral Force Analysis Design Roof Diaphragm
12.9. Step 5: Design Wall Segments
12.10. Step 6: Design and Detail Connections
13. Strength Design Example: Four-Story Building with Clay Masonry
13.1. Introduction
13.2. Design Steps for Four-Story Example
13.3. Step 1: Choose Design Criteria, Specify Materials
13.4. Step 2: Design Transverse Shear Walls for Gravity Plus Earthquake Loads
13.5. Step 3: Design Exterior Walls for Gravity Plus Out-of-Plane Wind
13.6. Overall Comments on Four-Story Building Example
14. Structural Design of AAC Masonry
14.1. Introduction to Autoclaved Aerated Concrete (AAC)
14.2. Applications of AAC
14.3. Structural Design of AAC Elements
14.4. Design of Unreinforced Panel Walls of AAC Masonry
14.5. Design of Unreinforced Bearing Walls of AAC Masonry
14.6. Design of Unreinforced Shear Walls of AAC Masonry
14.7. Design of Reinforced Beams and Lintels of AAC Masonry
14.8. Design of Reinforced Curtain Walls of AAC Masonry
14.9. Design of Reinforced Bearing Walls of AAC Masonry
14.10. Design of Reinforced Shear Walls of AAC Masonry
14.11. Seismic Design of AAC Structures
14.12. Design Example: Three-Story AAC Shear Wall Hotel
14.13. References on AAC
References
General References
ASTM Standards.