Welcome Guest
  |   0 items in your shopping cart
 

BROWSE BY STANDARDS

BROWSE BY CATEGORY

***
 
 
Join our mailing list to recieve newsletters
 

Modeling of Asphalt Concrete

Send to friend
 
Title: Modeling of Asphalt Concrete
Author: Y. Richard Kim
ISBN: 007146462X / 9780071464628
Format: Hard Cover
Pages: 460
Publisher: McGraw-Hill
Year: 2008
Availability: 45-60 days
     
 
  • Description
  • Contents

An Expert Guide to Developing More-Durable and Cost-Effective Asphalt Pavements.Written by distinguished experts from countries around the world, Modeling of Asphalt Concrete presents in-depth coverage of the current materials, methods, and models used for asphalt pavements.Included is state-of-the-art information on fundamental material properties and mechanisms affecting the performance of asphalt concrete, new rheological testing and analysis techniques, constitutive models, and performance prediction methodologies for asphalt concrete and asphalt pavements. Emphasis is placed on the modeling of asphalt mixes for specific geographic/climatic requirements.
 

Contributors

Chapter 1 : Modeling of Asphalt Concrete

Part 1 : Asphalt Rheology
Chapter 2 : Modeling of Asphalt Binder Rheology and Its Application to Modified Binders

Part 2 : Stiffness Characterization
Chapter 3 : Comprehensive Overview of the Stiffness Characterization of Asphalt Concrete
Chapter 4 : Complex Modulus Characterization of Asphalt Concrete
Chapter 5 : Complex Modulus from the Indirect Tension Test
Chapter 6 : Interrelationships among Asphalt Concrete Stiffnesses

Part 3 : Constitutive Models
Chapter 7 : VEPCD Modeling of Asphalt Concrete with Growing Damage
Chapter 8 : Unified Disturbed State Constitutive Modeling of Asphalt Concrete
Chapter 9 : DBN Law for the Thermo-Visco-Elasto-Plastic Behavior of Asphalt Concrete

Part 4 : Models for Rutting
Chapter 10 : Rutting Characterization of Asphalt Concrete Using Simple Shear Tests
Chapter 11 : Permanent Deformation Assessment for Asphalt Concrete Pavement and Mixture Design

Part 5 : Models for Fatigue Cracking and Moisture Damage
Chapter 12 : Micromechanics Modeling of Performance of Asphalt Concrete Based on Surface Energy
Chapter 13 : Field Evaluation of Moistrue Damage in Asphalt Concrete

Part 6 : Models for Low- Temperature Cracking
Chapter 14 : Prediction of Thermal Cracking with TCMODEL
Chapter 15 : Low-Temperature Fracture in Asphalt Binders, Mastics, and Mixtures

Index

 
 
 
About Us | Contact us
loading...
This page was created in 0.30981397628784 seconds