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Table of Content
1. Introduction and General Principles.
Bridge Engineering and Aesthetics. Pier Types. Abutment Types. Abutment Walls. Foundation Types. Subsurface Exploration and Foundation Investigations. Specifications and Standards. Cost Correlation, Superstructure versus Substructure. Design Example 1-1. References.

2. Loads and Loading Groups.
General Considerations. Permanent Loads. Transient Loads. Force Effects from Superimposed Deformations. Forces on Substructure. Earthquake Effects. Transfer of Loads from Superstructure to Substructure. Distribution of Longitudinal Forces to Fixed and Expansion Piers. Numerical Examples. Load Combinations and Load Factors. Case Study, Ice Load on Bridges. References.

3. Methods Of Analysis and Design.
General Principles. Service Load Design Method (Allowable Stress Design, ASD). Reliability and Uncertainty in Design. Alternate Approach to Limit States. AASHTO Strength Design Method, Reinforced Concrete Structures. LRFD Principles of Strength Design (AASHTO, 1994 Specifications). Design for Thermal Effects. Shrinkage and Creep (LRFD Specifications). Design for Vessel Collision. Basic Philosophy of Seismic Design. Requirements of Reinforced Concrete in Seismic Design. Tolerable Differential Movement and Settlement of Bridges. Design Example 3-1, Settlement. Case Study, Forces Induced by Settlement. Design Requirements for Bridges in Waterways. References.

4. Piers For Conventional Bridges.
Pier Types. Criteria for Pier Selection. Loads and Moments on Piers: End Conditions. Effect of Temperature Change and Shrinkage. Seismic Design Considerations for Piers and Columns. Structural Capacity under Combined Axial Compression and Bending. Section Analysis. Structural Capacity of Composite Columns. Design Example 4-1: Single Shaft Pier (Load Factor Design). Design Example 4-2: Hammerhead Pier. Design Example 4-3: Steel Bent Cap. Design Example 4-4: Steel Bent Cap for Torsional Loading. General Principles of Pier Frame Analysis. Design Example 4-5: Multiple Column Pier. Design Example 4-6: Pier Integral with Superstructure. Pier Trestles. Pier Protection Design Provisions in Navigable Waterways. Design Example 4-7: Bridge Protection in Waterways. Design Example 4-8: Pier Stability Under Stream Flow. References.

5. Piers For Special Bridges.
Structural Interaction of Elastic Piers in Multi-Span Arch Bridges. Towers for Suspension Bridges. Towers and Pylons for Cable-Stayed Bridges. Piers for Segmental Concrete Bridges. Piers for Movable Bridges. Supports Integral with Superstructure. References.

6. Wall Systems.
Diaphragm Walls in Traffic Underpasses. Gravity and Semi-Gravity Walls. Mechanically Stabilized Earth Walls and Prefabricated Modular Walls. Ground Movement in Excavations. Design Principles of Diaphragm Walls. Design Principles of Gravity and Semi-Gravity Walls. Commentary on Mechanically Stabilized Earth Walls. Commentary on Prefabricated Modular Walls. Design Example 6-1, Traffic Underpass. Design Example 6-2, Anchored Diaphragm Wall. Design Example 6-3, Stability of Ground-Anchored Wall System. Design Example 6-4, Posttensioned Diaphragm Wall. Seismic Design Requirements of Wall Systems. References.

7. Abutments.
Top of Abutment Details and Treatment. Pile Bent (Stub) Abutments, Design Considerations. Closed (Full) Abutments, Design Considerations. Gravity and Semi-Gravity Abutments, Design Considerations. Abutments on Mechanically Stabilized Earth Walls. Abutments on Modular Systems. Wing Walls. Abutments for Segmental Bridges. Seismic Design of Abutments. Design Example 7-1, Pile Bent Abutments, ASD Method. Design Example 7-2, Full Abutment. Design Example 7-3, Spill-Through Abutment. Design Example 7-4, Abutment of a Simple Span. Deck Truss Bridge. Abutments for Arch Bridges. Abutments for Suspension Bridges. Integral Abutments. Prefabricated Concrete Sections. References.

8. Footings.
Factors Affecting Selection of Foundation Type. Footing Types. Bearing Capacity Theories. Presumptive Bearing Pressures. Bearing Pressures from Tests. Bearing Resistance of Rock. Failure by Sliding. AASHTO and LRFD Requirements. Settlement of Footings in Soil, Methods of Analysis. Settlement of Footings in Rock. Structural Action of Footings. Flexural Strength of Modified Square Footing, Case Study. Strut-and-Tie Model (LRFD Specifications). Design Example 8-1, Bearing Capacity by ASD. Design Example 8-2, Settlement of Footings. Design Example 8-3, Footing in Rock. Design Example 8-4, Bearing Capacity by Strength Design. Design Example 8-5, Load Factor Design. Design Example 8-6, Strip Footing. Seismic Design Requirements. References.

9. Driver Piles.
Soil-Pile Interaction. Pile Types and Selection Criteria. Design Considerations. Design Approach. Movement and Bearing Resistance at the Service Limit State. Design of Piles for Axial Load, Structural Capacity. Design of Piles for Axial Load, Geotechnical Capacity of Single Pile. Bearing Capacity of Pile Groups. Uplift Considerations. Negative Skin Friction. Pile Foundations Under Lateral Loads. Structural Capacity of Piles Subjected to Axial Load and Bending. Design Examples. Bridge Foundations Without Piles. References.

10. Drilled Shaft Foundations.
Assessment of Construction Methods. Practical Considerations. Usual Defects and Repairs. AASHTO Requirements. Design Requirements. Generalized Design Approach. Structural Capacity for Axial Load. Geotechnical Strength (Bearing Capacity), Axially Loaded Shafts. Bearing Capacity from Load Tests. Axial Resistance in Rock. Group Action. Safety Factors for ASD. Settlement Considerations. Negative Skin Resistance (Downdrag). Uplift Resistance. Drilled Shafts under Lateral Load. Flexural Analysis, Laterally Loaded Shafts. Design Examples. References.

11. Prismatic and Linear Foundations.
Shapes and Configurations. Construction Considerations. The Transfer of Axial Load: Basic Concepts. Data from Load Tests. Guidelines for the Design of Load Bearing Linear and Prismatic Elements. Structural Capacity for Axial Load. Geotechnical Capacity: Axial Load in Cohesive Soils. Geotechnical Capacity: Axial Load in Cohesionless Soils. Axial Resistance in Rock. Group Action. Settlement Considerations. Downdrag and Uplift. Effects of Lateral Load. Structural Capacity Under Bending and Axial Load. Design Example 11-1. References.

12. Strengthening and Rehabilitation.
Design Options to Reduce Maintenance and Repair. Procedures for Detecting Defects and Deterioration. Assessment of Deficiencies of Substructures Below the Water Line. Repair of Scour Damage. Methods for Strengthening Substructures. Replacement and Repair Methods. Repair and Methods to Arrest Concrete Deterioration Below the Water Line. Example of Inspection Guidelines: Assessment of Underwater Concrete. Example of Structural Capacity Analysis. Example of Bridge Rehabilitation. References. Index.

Product Details 
ISBN-13 : 978-0133006179
ISBN-10 : 0133006174
Publisher : Prentice Hall
Publication Year : 1996
Edition No : 1
Hardcover : 864 pages
Shipping Weight : 1.633 Kg
Dimensions: 10 x 8.3 x 1.8 inches
Print Origin : United States
Edition Type : Original Student Edition(OSE)
Language : English