Design of reinforced masonry structures / Narendra Taly.

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The Definitive Guide to Designing Reinforced Masonry Structures

Fully updated to the 2009 International Building Code (2009 IBC) and the 2008 Masonry Standards Joint Committee (MSJC-08), Design of Reinforced Masonry Structures , second edition, presents the latest methods for designing strong, safe, and economical structures with reinforced masonry. The book is packed with more than 425 illustrations and a wealth of new, detailed examples.

This state-of-the-art guide features strength design philosophy for reinforced masonry structures based on ASCE 7-05 design loads for wind and seismic design. Written by an internationally acclaimed author, this essential professional tool takes you step-by-step through the art, science, and engineering of reinforced masonry structures.

COVERAGE INCLUDES:

Table of contents provided by Syndetics

• Preface to the Second Edition (p. xiii)
• Preface to the First Edition (p. xvii)
• Acknowledgments (p. xix)
• Notation (p. xxi)
• Acronyms (p. xxvii)
• Chapter 1 Introduction (p. 1)
• 1.1 What is Masonry? (p. 1)
• 1.2 Plain and Reinforced Masonry (p. 1)
• 1.3 A Brief History of Masonry Construction (p. 2)
• 1.4 Evolution of Reinforced Masonry (p. 3)
• 1.5 Unreinforced and Reinforced Masonry (p. 5)
• 1.6 Historical Development of Building Codes and Standards for Masonry Construction (p. 6)
• 1.7 Design Methods (p. 9)
• 1.8 Load Combinations (p. 11)
• References (p. 14)
• Chapter 2 Masonry Units: Applications, Types, Sizes, and Classification (p. 1)
• 2.1 Introduction (p. 1)
• 2.2 Application of Masonry Units in Construction (p. 1)
• 2.3 General Description of Masonry Units (p. 2)
• 2.4 Clay Building Brick (p. 4)
• 2.5 Functional Aspects (p. 15)
• 2.6 Concrete Masonry Units (p. 23)
• 2.7 Bonds and Patterns in Masonry Work (p. 35)
• 2.8 Structural Requirements for Masonry in Stack Bond (p. 41)
• 2.9 Mortar Joints (p. 42)
• 2.10 Types of Wall Construction (p. 43)
• 2.11 Glass Unit Masonry (p. 46)
• 2.12 Mortarless Block Systems (p. 51)
• 2.13 Prefabricated Masonry (p. 51)
• 2.14 Autoclaved Aerated Concrete (p. 54)
• References (p. 55)
• Chapter 3 Materials of Masonry Construction (p. 1)
• 3.1 Introduction (p. 1)
• 3.2 Mortar (p. 1)
• 3.3 Grout (p. 6)
• 3.4 Differences between Mortar, Grout, and Concrete (p. 11)
• 3.5 Compressive Strength of Masonry (p. 12)
• 3.6 Steel Reinforcement (p. 15)
• 3.7 Modulus of Elasticity of Masonry Materials (p. 22)
• 3.8 Thermal Effects on Masonry (p. 23)
• 3.9 Influence of Moisture on Masonry: Shrinkage (p. 25)
• 3.10 Creep of Masonry (p. 27)
• References (p. 28)
• Chapter 4 Design of Reinforced Masonry Beams (p. 1)
• 4.1 Introduction (p. 1)
• 4.2 Historical Development (p. 2)
• 4.3 Strength Design Philosophy (p. 2)
• 4.4 Assumptions in Strength Design Philosophy (p. 5)
• 4.5 Analysis of Rectangular Sections in Flexure (p. 7)
• 4.6 Modulus of Rupture and Nominal Cracking Moment of a Masonry Beam (p. 26)
• 4.7 Design of Masonry Beams (p. 31)
• 4.8 Procedure for Flexural Design of Beams (p. 41)
• 4.9 Overreinforced Beams (p. 53)
• 4.10 Design for Shear in Reinforced Masonry Beams (p. 56)
• 4.11 Lateral Support of Masonry Beams (p. 69)
• 4.12 Analysis of Doubly Reinforced Masonry Beams (p. 69)
• 4.13 Lintels (p. 74)
• 4.14 Masonry Wall Beams (Deep Wall Beams) (p. 101)
• 4.15 Bond Beams (p. 109)
• 4.16 Diaphragm Action (p. 111)
• 4.17 Flexural Strength of a Wall due to In-Plane Loads (p. 115)
• 4.18 Development Lengths for Reinforcing Bars (p. 117)
• 4.19 Serviceability Criteria for Beams (p. 119)
• 4.20 Service Load Analysis of Reinforced Masonry Beams (p. 120)
• 4.21 Deflections of Reinforced Masonry Beams (p. 126)
• References (p. 139)
• Chapter 5 Columns (p. 1)
• 5.1 Introduction (p. 1)
• 5.2 Behavior of Axially Loaded Columns (p. 4)
• 5.3 Axial Strength of Reinforced Masonry Columns (p. 7)
• 5.4 MSJC Code Provisions for Reinforced Masonry Columns (p. 10)
• 5.5 Analysis of Reinforced Masonry Columns (p. 16)
• 5.6 Design Procedure for Reinforced Masonry Columns (p. 21)
• 5.7 Columns under Combined Axial Load and Bending (p. 28)
• 5.8 Discussion and Interpretation of the Axial Load-Bending Moment Interaction Diagrams (p. 57)
• 5.9 Interaction Diagram for a Wall under Combined Loading (Axial Load and Bending) (p. 58)
• 5.10 Shear Strength of Masonry Columns (p. 60)
• 5.11 Masonry Piers (p. 64)
• References (p. 68)
• Chapter 6 Walls under Gravity and Transverse Loads (p. 1)
• 6.1 Introduction (p. 1)
• 6.2 Types of Masonry Walls (p. 1)
• 6.3 Bond Patterns in Masonry Walls (p. 16)
• 6.4 Analysis of Walls under Gravity and Transverse Loads (p. 23)
• 6.5 Out-of-Plane Loads on Walls (p. 25)
• 6.6 Analysis of Masonry Walls for Out-of-Plane Loads (p. 38)
• 6.7 Design of Walls for Gravity and Transverse Loads (p. 44)
• 6.8 Axial Loads on Walls Subjected to Out-of-Plane Loads (p. 69)
• 6.9 Pilasters (p. 69)
• 6.10 Nonload-Bearing Walls (p. 77)
• References (p. 86)
• Chapter 7 Shear Walls (p. 1)
• 7.1 Introduction (p. 1)
• 7.2 Fundamental Concepts (p. 2)
• 7.3 Types of Shear Walls (p. 6)
• 7.4 Rigidity and Relative Rigidity of a Shear Wall (p. 10)
• 7.5 Rigidity of a Shear Wall with Openings (p. 17)
• 7.6 Determination of Seismic Lateral Forces in Shear Walls (p. 39)
• 7.7 Horizontal Diaphragms (p. 50)
• 7.8 Influence of Building Configuration on Lateral Force Distribution in Shear Walls (p. 57)
• 7.9 Analysis of Shear Walls and Diaphragms under Direct Shear and Torsional Moments (p. 69)
• 7.10 Design Considerations for Shear Walls (p. 81)
• 7.11 Analysis of Shear Walls under Flexure and Axial Loads (p. 95)
• 7.12 Design of Multistory Shear Walls (p. 108)
• 7.13 Failure Modes of Shear Walls (p. 110)
• References (p. 121)
• Chapter 8 Retaining and Subterranean Walls (p. 1)
• 8.1 Introduction (p. 1)
• 8.2 Principal Types of Retaining Walls (p. 2)
• 8.3 Lateral Pressures on Retaining Walls (p. 9)
• 8.4 External Stability of a Retaining Walls (p. 25)
• 8.5 Design Procedure for Masonry Retaining Walls (p. 29)
• 8.6 Subterranean or Basement Walls (p. 35)
• 8.7 Construction Considerations (p. 42)
• References (p. 48)
• Chapter 9 Construction Aspects (p. 1)
• 9.1 Introduction (p. 1)
• 9.2 Placement of Steel Reinforcement (p. 2)
• 9.3 Grouting (p. 7)
• 9.4 Movements of Construction Materials, Their Causes and Effects (p. 23)
• 9.5 Control of Cracking and Movement Joints (p. 33)
• 9.6 Quality Assurance (p. 42)
• 9.7 Flashing for Masonry Construction (p. 43)
• References (p. 46)
• Chapter 10 Anchorage to Masonry (p. 1)
• 10.1 Introduction (p. 1)
• 10.2 Types of Anchor Bolts (p. 1)
• 10.3 Placement and Embedment of Anchor Bolts in Masonry Grout (p. 2)
• 10.4 Nominal Strength of Anchor Bolts (p. 3)
• 10.5 Nominal Axial Strength of Anchor Bolts Loaded in Tension and in Combined Tension and Shear (p. 5)
• 10.6 Nominal Shear Strength of Headed and Bent-Bar Anchor Bolts in Shear (p. 14)
• 10.7 Headed and Bent-Bar Anchor Bolts in Combined Axial Tension and Shear (p. 15)
• 10.8 Structural Walls and Their Anchorage Requirements (p. 16)
• References (p. 27)
• Appendix Design Aids: Tables (p. A.1)
• Glossary (p. G.1)
• Index (p. I.1)

Author notes provided by Syndetics