01704843

Component

https://doi.org/10.1177/0361198119845364

This paper aims to establish the relationship between the volumetric performance of asphalt mixtures and their performance in relation to pavement fatigue cracking and rutting. A good performance-volumetric relationship (PVR) can dramatically improve the working efficiency of mixtures and can be used in future performance-engineered mixture design and performance-related specifications. For this study, three asphalt mixtures were first designed to incorporate systematic changes in volumetric conditions, then fatigue cracking and rutting performance tests were conducted at each condition. Statistical analyses of the results suggest that a first-order (linear) model and power model would be an appropriate form of the PVR function. The number of volumetric conditions required to calibrate the PVR function is also investigated. Finally, a rule of thumb for selecting the volumetric conditions for the model calibrations is provided. The verification results show that the proposed PVR function is able to capture the response of mixture performance to changes in volumetric conditions.

19-03781

English

pp 416-430

2019-6

Transportation Research Record: Journal of the Transportation Research Board

Digital/other

Figures (9) ; References (22) ; Tables (4)

Asphalt mixtures; Calibration; Fatigue cracking; Mix design; Pavement performance; Rutting; Statistical analysis; Volume

Design; Highways; Pavements; Planning and Forecasting

TRIS, TRB, ATRI

Apr 2 2019 10:44AM

• Analysis of Bicycle Headway Distribution, Saturation Flow and Capacity at a Signalized Intersection using Empirical Trajectory Data
• Analyzing Transit User Behavior with 51 Weeks of Smart Card Data
• Approximative Network Partitioning for MFDs from Stationary Sensor Data
• Arterial Traffic Flow Estimation Based on Vehicle-to-Cloud Vehicle Trajectory Data Considering Multi-Intersection Interaction and Coordination
• Assessment of Contributing Factors to Air Service Loss in Small Communities
• Automatic Ground Points Identification Method for Roadside LiDAR Data
• Automatic Vehicle Classification using Roadside LiDAR Data
• Bicyclist Crash Types on National, State, and Local Levels: A New Look
• Bikeability in Basel
• Bus Arrival Time Modeling Based on Auckland Data
• Comparative Analysis between Modern-Era Retrospective Analysis for Research and Applications and Updated Mechanistic-Empirical Pavement Design Guide Climate Database in the State of Tennessee
• Data-Driven Methodology for Prioritizing Traffic Signal Retiming Operations
• Designing a Comprehensive Procedure for Flagging Archived Traffic Data: A Case Study
• Development of Traffic-Based Congestion Pricing and Its Application to Automated Vehicles
• Does One Bicycle Facility Type Fit All? Evaluating the Stated Usage of Different Types of Bicycle Facilities among Cyclists in Quebec City, Canada
• Driver Back-Tracing Based on Automated Vehicle Identification Data
• Driving Style Clustering using Naturalistic Driving Data
• Empirical Estimation of Effects of Flexible Working on Mobility and Congestion in the Netherlands 2000 to 2016
• Engineering Properties of Asphalt Binders from Different Sources and Their Influence on Stiffness of Asphalt Concrete Mixtures
• Evaluation of Degradation of SBS Modified Asphalt Binder Because of RTFO, PAV, and UV Aging using a Novel Extensional Deformation Test
• Evaluation of Laboratory Performance and Structural Contribution of Cold Recycled Versus Hot Mixed Intermediate and Base Course Asphalt Layers in New Hampshire
• Familiar versus Unfamiliar Drivers on Curves: Naturalistic Data Study
• Field Evaluation of Different Pre-Wetting Ratios for Sustainable Salting
• Framing the Bicyclist: A Qualitative Study of Media Discourse about Fatal Bicycle Crashes
• Fusing Multiple Sources of Data to Understand Ride-Hailing Use
• Impact of Aging on the Viscoelastic Properties and Cracking Behavior of Asphalt Mixtures
• Impermeable Asphalt Concrete Layer to Protect and Seal Concrete Bridge Decks
• Investigating Effect of Driver-, Vehicle-, and Road-Related Factors on Location-Specific Crashes with Naturalistic Driving Data
• Investigation into the Oxidative Aging of Asphalt Binders
• Investigation of Bimodal Macroscopic Fundamental Diagrams in Large-Scale Urban Networks: Empirical Study with GPS Data for Shenzhen City
• Joint Optimization Scheme for the Planning and Operations of Shared Autonomous Electric Vehicle Fleets Serving Mobility on Demand
• New Method for Detecting Oil Contaminants in Asphalt Mixtures through Chemical Testing
• New Test Method for Measuring Reflective Cracking in Hot-Mix Asphalt Overlay Pavements
• Non-Intrusive Detection of Drowsy Driving Based on Eye Tracking Data
• Novel Divide and Combine-Based Approach to Estimating Mixture Markov Model for Large Categorical Time Series Data: Application to Study of Clusters using Multiyear Travel Survey Data
• Optimal Design of Bus Routes for Different Vehicle Types Considering Various Driving Regimes and Environmental Factors
• Pattern Identification from Older Bicyclist Fatal Crashes
• Real-Time Pedestrian Detection Approach with an Efficient Data Communication Bandwidth Strategy
• Relationship between Asphalt Binder Parameters and Asphalt Mixture Rutting
• Safety in Numbers for Bicyclists at Urban Intersections
• Seasonal and Long-Term Changes to Pavement Life Caused by Rising Temperatures from Climate Change
• Signal Timing Parameters Estimation for Intersections using Floating Car Data
• Understanding the Illinois Flexibility Index Test (I-FIT) using Indiana Asphalt Mixtures
• Using Smart Farecard Data to Support Transit Network Restructuring: Findings from Los Angeles
• Validating the Adaptability of Travel Time Reliability Measurements using Probe Data
• Volume Estimation using Traffic Signal Event-Based Data from Video-Based Sensors