| General note |
CONTENTS Foreword vii Characterization of Permanent Deformation of Asphalt Mixtures Based on Shear Properties Qiang Li, Hyun Jong Lee, and Eui Yoon Hwang Fatigue Crack Propagation Model of Asphalt Concrete 11 Based on Viscoelastic Fracture Mechanics Hai Dong Kuai, Hyun Jong Lee, Jung Hun Lee, and Sungho Mun Semiempirical, Analytical, and Computational Predictions 19 of Dynamic Modulus of Asphalt Concrete Mixtures Francisco T. S. Aragao, Yongrak Kim, Pravat Karki, and Dallas N. Little Multiscale Modeling to Predict Mechanical 28 Behavior of Asphalt Mixtures Jamilla E. S. Lutif, Flavio V. Souza, Yongrak Kim, Jorge B. Scares, and David H. Alien Fenix Test: Development of a New Test Procedure for Evaluating 36 Cracking Resistance in Bituminous Mixtures Felix Perez-Jimenez, Gonzalo Valdes, Rodrigo Miro, Adriana Martinez, and Ramon Botella Effect of Thermal Stresses on Pavement 44 Performance Under Mild Climate Conditions Jaeseung Kim and Randy C. West Use of Nonuniform Stress-State Tests to Determine 55 Fracture Energy of Asphalt Mixtures Accurately Chulseung Koh and Reynaldo Roque Estimation of Stress Conditions for the Flow 67 Number Simple Performance Test Elie Y. Hajj, Alvaro Ulloa, Raj Siddharthan, and Peter E. Sebaaly Development of a Flow Number Predictive Model 79 Maria Carolina Rodezno, Kamil E. Kaloush, and Matthew R. Corrigan Development of Artificial Neural Network Predictive 88 Models for Populating Dynamic Moduli of Long-Term Pavement Performance Sections Maryam S. Sakhaeifar, B. Shane Underwood, Y. Richard Kim, Jason Puccinelli, and Newton Jackson Stiffening Mechanisms of Asphalt-Aggregate Mixtures: 98 From Binder to Mixture Minkyum Kim and William G. Buttlar Rutting Resistance of Laboratory-Prepared 109 and Field-Compacted Asphalt Mixtures Nelson Gibson, Sean [Xinjun) Li, and M. Emin Kutay Estimate of Fatigue Shift Factors Between 117 Laboratory Tests and Field Performance Brian D. Prowell |
