Title Pavement design : materials, analysis, and highways / M. Rashad Islam, Rafiqul A. Tarefder

Published New York, NY : McGraw-Hill Education, [2020] ©2020

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Description 1 online resource (576 pages) : 150 illustrations Contents 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 Summary "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 mechanistic design methods along with detailed examples of real-world pavement and highway projects. Pavement Design: Materials, Analysis, and Highways shows, step by step, how to apply the latest, software-based AASHTOWare Pavement Mechanistic-Empirical Design method. Each design topic is covered in separate, modular chapters, enabling you to tailor a course of study. Fundamentals of Engineering (FE) sample questions are also provided in each chapter."--Publisher's description Bibliography Includes bibliographical references Notes In English Online resource, viewed Novermber 6, 2020 Subject Pavements -- Design and construction Road materials. TECHNOLOGY & ENGINEERING -- Civil -- General. Pavements -- Design and construction Road materials Form Electronic book Author Tarefder, Rafiqul A., author. ISBN 9781260458923 126045892X

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