原文传递
ANALYTICALLY BASED APPROACH TO RUTTING PREDICTION.
| 题名: | ANALYTICALLY BASED APPROACH TO RUTTING PREDICTION. |
| 作者: | Deacon-JA; Harvey-JT; Guada-I; Popescu-L; Monismith-CL |
| 关键词: | Asphalt-concrete; Asphalt-pavements; Environment-; Heavy-vehicle-simulator; Regression-analysis; Rutting-; Shear-tests; Strain-Mechanics; Surface-temperature; Test-sections; Traffic-loads; WesTrack- |
| 摘要: | An analytically based (mechanistic-empirical) procedure was conducted to estimate the development of rutting in asphalt pavements as a function of both traffic loading and environment as defined by pavement temperatures. The procedure uses permanent strain determined for a representative asphalt concrete mix as a function of load repetitions, shear stress, and elastic shear strain. It combines multilayer elastic analysis for determining key shear stresses and strains in the asphalt concrete resulting from traffic loading to be used in the permanent strain expression with a time-hardening procedure for the accumulation of permanent strain as a function of both traffic loading and environment. The WesTrack test sections were used to calibrate the methodology, with results of rutting predictions evaluated for four different test sections from that experiment. Based on the results of the regression analyses, an expression can be used to determine coefficients for use in the permanent strain expression that reflect the permanent deformation characteristics of a specific mix as measured in repeated simple shear test at constant height. In addition to the WesTrack examples, results illustrated the use of the approach to predict rutting development in a controlled loading condition at 50 deg C (122 deg F) using the heavy vehicle simulator. |
| 总页数: | Transportation Research Record. 2002. (1806) pp9-18 (12 Fig., 5 Tab., 7 Ref.) |
| 报告类型: | 科技报告 |
相关文献
- Investment Planning of Interdependent Waterway Improvement Projects.
- DYNAMIC FREEWAY TRAVEL-TIME PREDICTION WITH PROBE VEHICLE DATA: LINK BASED VERSUS PATH BASED.
- DETERMINATION OF ELASTIC AND PLASTIC SUBGRADE SOIL PARAMETERS FOR ASPHALT CRACKING AND RUTTING PREDICTION.
- TRAFFIC ESTIMATION FOR PROACTIVE FREEWAY TRAFFIC CONTROL.
- Recursive Multi-step Machine Learning Approach for Airport Configuration Prediction.
- Asphalt Mixtures and Materials, 2015: Volume 3. Transportation Research Record: Journal of the Transportation Research Board, No. 2507
检索历史
应用推荐
