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Pavement Design : Materials, Analysis, and Highways /

"Master the principles, analysis, and design in pavement engineering. This student-friendly textbook offers comprehensive coverage of pavement design and highways. Written by two seasoned civil engineering educators, the book contains precise explanations of traditional and computerized mechani...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Islam, M. Rashad (Autor), Tarefder, Rafiqul A. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2020]
Edición:First edition.
Colección:McGraw-Hill's AccessEngineering.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • About the Authors
  • Contents
  • Preface
  • 1 Introduction
  • 1.1 Background
  • 1.2 Pavement Types
  • 1.3 Design Philosophy of Pavements
  • 1.4 Major Pavement Design Methods
  • 1.5 Other Design Considerations
  • 1.6 Summary
  • 1.7 Fundamentals of Engineering (FE) Exam?Style Questions
  • 1.8 Practice Problems
  • 2 Stress-Strain in Pavement
  • 2.1 Background
  • 2.2 Stress-Stain in Flexible Pavement
  • 2.3 Stress-Stain in Rigid Pavement
  • 2.4 Stress in Dowels
  • 2.5 Finite Element Analysis
  • 2.6 Numerical Analysis Tools
  • 2.7 Summary
  • 2.8 Fundamentals of Engineering (FE) Exam?Style Questions
  • 2.9 Practice Problems
  • 3 Soils and Aggregates
  • 3.1 Background
  • 3.2 Physical Properties
  • 3.3 Mechanical Properties
  • 3.4 Resilient Modulus Variations Due to Moisture
  • 3.5 Resilient Modulus Variations Due to Stress Level
  • 3.6 Other Properties
  • 3.7 Summary
  • 3.8 Fundamentals of Engineering (FE) Exam?Style Questions
  • 3.9 Practice Problems
  • 4 Asphalt Materials
  • 4.1 Background
  • 4.2 Asphalt Binder
  • 4.3 Grading of Asphalt Binder
  • 4.4 Other Tests on Asphalt Binder
  • 4.5 Asphalt Mixtures
  • 4.6 Recycled Asphalt Materials
  • 4.7 Surface Treatment Materials
  • 4.8 Characterization of New Asphalt Mixtures
  • 4.9 Characterization of Existing Asphalt Mixtures
  • 4.10 Summary
  • 4.11 Fundamentals of Engineering (FE) Exam?Style Questions
  • 4.12 Practice Problems
  • 5 Portland Cement Concrete
  • 5.1 Background
  • 5.2 PCC Characterizations
  • 5.3 Chemically Stabilized PCC Materials
  • 5.4 Summary
  • 5.5 Fundamentals of Engineering (FE) Exam?Style Questions
  • 5.6 Practice Problems
  • 6 Traffic Analysis for Pavement Design
  • 6.1 Background
  • 6.2 Fundamentals of Traffic Analysis
  • 6.3 Traffic Analysis for the AASHTO 1993 Design
  • 6.4 Traffic Analysis for the AASHTOWare Design
  • 6.5 Details of Traffic Inputs for the AASHTOWare Design
  • 6.6 Traffic Data Source
  • 6.7 Summary
  • 6.8 Fundamentals of Engineering (FE) Exam?Style Questions
  • 6.9 Practice Problems
  • 7 Flexible Pavement Design by AASHTO 1993
  • 7.1 Background
  • 7.2 AASHTO 1993 Design Equation
  • 7.3 Load Repetitions (W18)
  • 7.4 Structural Number
  • 7.5 Effective Roadbed Soil Resilient Modulus
  • 7.6 Terminal Serviceability
  • 7.7 Reliability
  • 7.8 Selection of Layers? Thicknesses
  • 7.9 Summary
  • 7.10 Fundamentals of Engineering (FE) Exam?Style Questions
  • 7.11 Practice Problems
  • 8 Distresses in Flexible Pavement
  • 8.1 Background
  • 8.2 Major Distresses
  • 8.3 Minor Distresses
  • 8.4 Summary
  • 8.5 Fundamentals of Engineering (FE) Exam?Style Questions
  • 8.6 Practice Problems
  • 9 Distress Models in Flexible Pavement
  • 9.1 Background
  • 9.2 Alligator Cracking
  • 9.3 Top-Down Longitudinal Cracking
  • 9.4 Rutting
  • 9.5 Transverse Cracking
  • 9.6 International Roughness Index
  • 9.7 Reflective Cracking in HMA Overlay
  • 9.8 Recommended Design-Performance Criteria
  • 9.9 Reliability
  • 9.10 Calibration of Local Calibration Coefficients
  • 9.11 Summary
  • 9.12 Fundamentals of Engineering (FE) Exam?Style Questions
  • 9.13 Practice Problems
  • 10 Flexible Pavement Design by AASHTOWare
  • 10.1 Background
  • 10.2 AASHTOWare Design Considerations
  • 10.3 AASHTOWare Input Hierarchy
  • 10.4 Getting Started with the AASHTOWare Pavement ME Design Software
  • 10.5 Interpretation and Analysis of the Trial Design
  • 10.6 Special Features of the Software
  • 10.7 Summary
  • 10.8 Fundamentals of Engineering (FE) Exam?Style Questions
  • 10.9 Practice Problems
  • 11 Asphalt Overlay Design by AASHTOWare
  • 11.1 Background
  • 11.2 AASHTOWare Design Method
  • 11.3 Overlay Design Using the AASHTOWare Software
  • 11.4 Summary
  • 11.5 Fundamentals of Engineering (FE) Exam?Style Questions
  • 11.6 Practice Problems
  • 12 Rigid Pavement Design by?AASHTO 1993
  • 12.1 Background
  • 12.2 AASHTO Thickness Design
  • 12.3 Design Inputs
  • 12.4 Thickness Design
  • 12.5 Summary
  • 12.6 Fundamentals of Engineering (FE) Exam?Style Questions
  • 12.7 Practice Problems
  • 13 Distresses in Rigid?Pavement
  • 13.1 Background
  • 13.2 Major Distresses
  • 13.3 Selected Minor Distresses
  • 13.4 Summary
  • 13.5 Fundamentals of Engineering (FE) Exam?Style Questions
  • 13.6 Practice Problems
  • 14 Distress Models in Rigid?Pavement
  • 14.1 Background
  • 14.2 Jointed Plain Concrete Pavement
  • 14.3 Continuously Reinforced Concrete Pavement
  • 14.4 Recommended Design-Performance Criteria
  • 14.5 Summary
  • 14.6 Fundamentals of Engineering (FE) Exam?Style Questions
  • 14.7 Practice Problems
  • 15 Rigid Pavement Design by AASHTOWare
  • 15.1 Background
  • 15.2 Pavement Structure
  • 15.3 JPCP Design
  • 15.4 CRCP Design
  • 15.5 Usage of the Software
  • 15.6 Interpretation and Analysis of the Trial Design
  • 15.7 Summary
  • 15.8 Fundamentals of Engineering (FE) Exam?Style Questions
  • 15.9 Practice Problems
  • 16 Drainage Design in Pavement
  • 16.1 Background
  • 16.2 Surface Drainage
  • 16.3 Subsurface Drainage
  • 16.4 Summary
  • 16.5 Fundamentals of Engineering (FE) Exam?Style Questions
  • 16.6 Practice Problems
  • 17 Sustainable Pavement Design
  • 17.1 Concept of Sustainability
  • 17.2 Role of Pavement in Sustainability
  • 17.3 Pavement Life Cycle
  • 17.4 Materials Considerations for Sustainability
  • 17.5 Rehabilitation Design for Sustainability
  • 17.6 Construction Considerations for Sustainability
  • 17.7 Maintenance for Sustainability
  • 17.8 End-of-Life Considerations for Sustainability
  • 17.9 Measuring Pavement Sustainability
  • 17.10 Summary
  • 17.11 Fundamentals of Engineering (FE) Exam?Style Questions
  • 17.12 Practice Problems
  • 18 Pavement Rehabilitation Design
  • 18.1 Background
  • 18.2 Overall Condition Assessment
  • 18.3 Fully Defining Condition Assessment
  • 18.4 Analysis of Pavement Evaluation Data
  • 18.5 General Overview of Rehabilitation Design Using AASHTOWare
  • 18.6 Rehabilitation Design with HMA Overlays
  • 18.7 Rehabilitation Design with PCC Overlays
  • 18.8 Summary
  • 18.9 Fundamentals of Engineering (FE) Exam?Style Questions
  • 18.10 Practice Problems
  • 19 Geometric Design of?Highways
  • 19.1 Background
  • 19.2 Cross Section of Highways
  • 19.3 Lane Widths
  • 19.4 Shoulders
  • 19.5 Rumble Strips
  • 19.6 Curbs
  • 19.7 Drainage Channels
  • 19.8 Sideslopes
  • 19.9 Traffic Barriers
  • 19.10 Medians
  • 19.11 Pedestrian Facilities
  • 19.12 Bicycle Facilities
  • 19.13 On-Street Parking
  • 19.14 Horizontal Curves
  • 19.15 Vertical Curves
  • 19.16 Other Features Affecting Geometric Design
  • 19.17 Summary
  • 19.18 Fundamentals of Engineering (FE) Exam?Style Questions
  • 19.19 Practice Problems
  • A Global Contexts of?Pavement Design
  • A.1 Background
  • A.2 U.K. Flexible Pavement Design
  • A.3 U.K. Rigid Pavement Design
  • A.4 Australian Flexible Pavement Design
  • A.5 Australian Rigid Pavement Design
  • A.6 South African Flexible Pavement Design
  • A.7 Summary
  • B Pavement Management System
  • B.1 General
  • B.2 Inventory Data Collection
  • B.3 Pavement Condition Assessment
  • B.4 Pavement Performance Modeling
  • B.5 Treatment Selection
  • B.6 Presenting Pavement Management Results
  • B.7 Implementation
  • B.8 Future Directions
  • B.9 Summary
  • C Recycling and Rehabilitation of Pavement
  • C.1 General
  • C.2 Asphalt Pavement Recycling
  • C.3 Concrete Pavement Recycling
  • C.4 Summary
  • D Superpave Asphalt Mix?Design
  • D.1 Background
  • D.2 Superpave Mix Design
  • D.3 Summary
  • References
  • Index.