Design of Breast Walls: A Practical Solution Approach
- Length: 310 pages
- Edition: 1
- Language: English
- Publisher: CRC Press
- Publication Date: 2021-09-14
- ISBN-10: 0367754711
- ISBN-13: 9780367754716
- Sales Rank: #0 (See Top 100 Books)
The design of breast walls is important parameter for various earth-retaining purposes, and many problems are encountered in the field as a result of improper design and the proper explanation of parameters which influence the technoeconomic designs is required. The book provides insight into the design of retaining walls by explaining the basics of earth pressure theories, the parameters influencing earth pressures, gravity vis-à-vis breast walls and tables and charts for designing stone masonry and concrete breast walls across eight chapters. Details of the analysis are tabulated to aid professional engineers or designers in their practical work.
FEATURES
- Basic principles, design methodology, the influence of various parameters on design and construction features
- Technoeconomical designs for various combinations of pertinent parameters
- How to design masonry and concrete walls
- Design principles and methodologies of designing breast walls with illustrative examples and construction features
- Design charts and tables for ease of access and a quick design process of breast walls
This volume is aimed at professionals in civil engineering, geotechnical engineering, retaining walls, soil mechanics and foundation engineering, as well as engineers working in the highway, water resources and construction sectors.
Cover Half Title Title Copyright Dedication Contents Preface Acknowledgements Author List of Symbols Chapter 1 Introduction 1.1 Evolution of Retaining Walls 1.2 Retaining Walls 1.2.1 Predictable Behaviour 1.2.2 Drainage System 1.2.3 Frost Action 1.3 Types of Retaining Walls 1.3.1 Gravity Retaining Walls 1.3.1.1 Semi-Gravity Retaining Walls 1.3.1.2 Prefabricated Modular Gravity Walls 1.3.2 Pile Retaining Walls 1.3.3 Cantilever Retaining Walls 1.3.3.1 Non-Gravity Cantilevered Walls 1.3.4 Anchored Retaining Walls 1.3.5 Counterfort Retaining Walls 1.3.6 Mechanically Stabilized Earth (MSE) Walls 1.3.7 Retaining Wall with a Pressure Relief Shelf 1.3.8 Hybrid Systems Chapter 2 Revisiting Earth Pressure Theories 2.1 Lateral Earth Pressures 2.2 Earth Pressure Theories 2.2.1 Coulomb’s Theory 2.2.1.1 Active Pressure Due to the Backfill 2.2.1.2 Passive Pressure Due to the Earthfill 2.2.2 Rankine’s Theory 2.2.2.1 Active Pressure Due to the Backfill 2.2.2.2 Passive Pressure Due to the Earthfill 2.3 Reliability of Lateral Earth Pressures 2.4 Reducing Active Earth Pressure 2.5 Influence of the Parameters on Earth Pressure 2.5.1 Influence of the Angle of Repose of the Backfill, φ and the Angle of Friction between the Wall and the Backfill, δ 2.5.2 Influence of the Angle of the Surcharge, ι, on the Active Earth Pressure 2.5.3 Influence of the Vertical Angle of the Earth Face of the Wall, α, on the Active Earth Pressure 2.6 Inference from the Parametric Study 2.7 Coefficients of the Active and Passive Earth Pressures Chapter 3 Design Methodology of Breast Walls 3.1 Design Methodology 3.1.1 Design Loads 3.2 Stability Analysis of Breast Walls 3.2.1 Stability against Overturning 3.2.2 Stability against Sliding 3.2.3 Shear Key 3.2.4 Bearing Pressure Chapter 4 Comparison of Gravity Retaining Walls and Breast Walls 4.1 Design Parameters 4.1.1 Design Loads 4.1.2 Coefficient of the Active Earth Pressure 4.1.3 Base Width 4.1.4 Volume of Masonry in a Gravity Retaining Wall 4.1.5 Factor of Safety against Sliding 4.2 Remarks on the Comparison of Designs 4.3 Influence of the Surcharge and the Density of Materials 4.3.1 Influence of the Unit Weight of the Soil on the Base Width 4.3.2 Influence of the Unit Weight of Masonry on the Base Width 4.3.3 Influence of the Angle of the Surcharge on the Base Width 4.3.4 Influence of Materials of Construction on the Base Width Chapter 5 Charts for Stone Masonry Breast Walls 5.1 Parameters for the Development of Charts 5.2 Charts for the Design of a 1.0-m-High Masonry Breast Wall 5.3 Charts for the Design of a 1.5-m-High Masonry Breast Wall 5.4 Charts for the Design of a 2.0-m-High Masonry Breast Wall 5.5 Charts for the Design of a 2.5-m-High Masonry Breast Wall 5.6 Charts for the Design of a 3.0-m-High Masonry Breast Wall 5.7 Charts for the Design of a 3.5-m-High Masonry Breast Wall 5.8 Charts for the Design of a 4.0-m-High Masonry Breast Wall 5.9 Charts for the Design of a 4.5-m-High Masonry Breast Wall 5.10 Charts for the Design of a 5.0-m-High Masonry Breast Wall Chapter 6 Charts for Concrete Breast Walls 6.1 Parameters for the Development of Charts 6.2 Charts for the Design of a 1.0-m-High Concrete Breast Wall 6.3 Charts for the Design of a 1.5-m-High Concrete Breast Wall 6.4 Charts for the Design of a 2.0-m-High Concrete Breast Wall 6.5 Charts for the Design of a 2.5-m-High Concrete Breast Wall 6.6 Charts for the Design of a 3.0-m-High Concrete Breast Wall 6.7 Charts for the Design of a 3.5-m-High Concrete Breast Wall 6.8 Charts for the Design of a 4.0-m-High Concrete Breast Wall 6.9 Charts for the Design of a 4.5-m-High Concrete Breast Wall 6.10 Charts for the Design of a 5.0-m-High Concrete Breast Wall Chapter 7 Detailing of Breast Walls 7.1 Random Rubble Masonry Walls 7.1.1 Through-Stones/Bonding Element 7.1.2 Cement Mortar 7.1.3 Coping 7.2 Drainage 7.2.1 Specifying Filters by Permeability 7.3 Weep Holes 7.3.1 Drainage Pipe 7.3.2 Catch Water Drain 7.4 Dip of the Foundation at the Base 7.5 Wall Joints 7.5.1 Construction Joints in Concrete Walls 7.5.2 Contraction Joint 7.5.3 Expansion Joint 7.6 Typical Drawings Chapter 8 Application of Design Tables and Charts 8.1 Application of the Design Charts 8.1.1 Masonry Breast Walls 8.1.2 Concrete Breast Walls 8.1.3 Utility of Charts 8.2 Application of the Design Tables 8.2.1 Masonry Breast Walls 8.2.2 Concrete Breast Walls 8.2.3 Application of the Tables 8.3 Design of the Shear Key 8.4 Design Examples 8.4.1 Example 8.4.2 Example 8.5 Application of the Tables for Different Design Parameters 8.5.1 Top Width of Breast Walls 8.5.2 Angle of Repose of the Soils, φ 8.5.3 Unit Weight of Materials 8.5.4 Unit Weight of Soil 8.5.5 Angle of the Surcharge, ι 8.5.6 Height of Walls 8.5.7 Example Bibliography Index
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