00607734

Component

http://onlinepubs.trb.org...trr/1990/1286/1286-015.pdf

https://scholar.google.co...tton&publication_year=1990

The development of material property relations for the two fatigue damage properties, K sub 1 and K sub 2, which can be used to predict the fatigue life of asphaltic concrete pavements, is described. The fatigue damage properties developed are based on the theory of fracture mechanics along with regression analysis on published beam fatigue data and, thus, can take into account crack initiation, propagation, and material properties that are not accounted for with the conventional strain-based fatigue equation. The approach provides more insight into how these fatigue damage properties reflect the fatigue behavior of asphaltic concrete pavement while producing acceptable estimates of field fatigue life. Derivations have shown that the fatigue damage property K sub 1 is dependent on the asphalt mixture and pavement properties, such as the parameters of the Paris crack growth law, elastic stiffness, and thickness of the asphaltic concrete layer and that the fatigue damage property K sub 2 varies with the initial asphalt cement properties, such as asphalt content, viscosity, penetration, and temperature. Two significant functions of the fatigue damage properties developed are (a) the prediction of fatigue life allows for the application of loading with single or dual tires on single, tandem, or triple axles, and (b) they provide for the calculation of load equivalence factors for fatigue life as affected by multiple-axle loads. A shift factor that can be used to adjust the laboratory (or calculated) fatigue damage properties to that measured in the field is also described. This factor takes into account healing and residual stresses between applications of traffic loads that are responsible for the difference in fatigue life between laboratory test results and those measured in the field.

This paper appears in Transportation Research Record No. 1286, Design and Evaluation of Rigid and Flexible Pavements 1990. Distribution, posting, or copying of this PDF is strictly prohibited without written permission of the Transportation Research Board of the National Academy of Sciences. Unless otherwise indicated, all materials in this PDF are copyrighted by the National Academy of Sciences. Copyright © National Academy of Sciences. All rights reserved

01411074

p. 150-163

1990

Transportation Research Record

0309050707

Figures (9) ; References (24) ; Tables (5)

Asphalt concrete; Axle load force; Axles; Cracking; Fatigue (Mechanics); Fatigue cracking; Field tests; Forecasting; Fracture mechanics; Laboratory tests; Load factor; Pavements; Properties of materials; Regression analysis; Service life; Tandem axle loads; Three axle trucks

Crack propagation; Fatigue life; Field measurements; Load equivalence factors; Multi-axle loads; Single axle loads

Data and Information Technology; Design; Highways; Materials; Pavements; I22: Design of Pavements, Railways and Guideways; I23: Properties of Road Surfaces

TRIS, TRB, ATRI

Apr 30 1991 12:00AM

• AASHTO FLEXIBLE PAVEMENT DESIGN METHOD: FACT OR FICTION?
• AGGREGATE INTERLOCK: A PURE-SHEAR LOAD TRANSFER MECHANISM
• ASSESSMENT OF DAMAGE CAUSED TO PAVEMENTS BY HEAVY TRUCKS IN NEW ENGLAND
• COMPUTER SIMULATION OF LOAD EQUIVALENCE FACTORS
• CONTROL OF FAULTING THROUGH JOINT LOAD TRANSFER DESIGN
• EFFECT OF FRACTURE HEALING ON LABORATORY-TO-FIELD SHIFT FACTOR
• EFFECT OF LANE WIDENING ON LATERAL DISTRIBUTION OF TRUCK WHEELS
• EVALUATION OF THE SUBBASE DRAG FORMULA BY CONSIDERING REALISTIC SUBBASE FRICTION VALUES
• EVALUATION OF VARIABLES AFFECTING FLEXIBLE PAVEMENT THAWING FOR TIMING SPRING LOAD RESTRICTIONS
• EXTENSION OF LOAD EQUIVALENCY FACTORS FOR VARIOUS PAVEMENT CONDITIONS
• FIELD INVESTIGATION OF PUNCHOUT DISTRESS IN CONTINUOUSLY REINFORCED CONCRETE PAVEMENT IN ILLINOIS
• FIELD PERFORMANCE AND EVALUATION OF THIN BONDED OVERLAYS
• HEAVILY LOADED TRAILERS: AN APPROACH TO EVALUATE THEIR INTERACTION WITH ASPHALT CONCRETE PAVEMENTS
• INFLUENCE OF AXLE GROUP SPACING ON PAVEMENT DAMAGE
• INTEGRATED COMPUTER MODEL TO ESTIMATE MOISTURE AND TEMPERATURE EFFECTS BENEATH PAVEMENTS
• MECHANISTIC DESIGN CONSIDERATIONS FOR PUNCHOUT DISTRESS IN CONTINUOUSLY REINFORCED CONCRETE PAVEMENT
• MICH-PAVE: A NONLINEAR FINITE ELEMENT PROGRAM FOR ANALYSIS OF FLEXIBLE PAVEMENTS
• OVERLAY DESIGN METHOD FOR FLEXIBLE PAVEMENTS IN ARIZONA
• PREDICTION OF DAMAGE TO FLEXIBLE PAVEMENTS IN SEASONAL FROST AREAS
• PRESTRESSED CONCRETE PAVEMENT: INSTRUMENTATION, BEHAVIOR, AND ANALYSIS OF HORIZONTAL MOVEMENTS
• PROBABILISTIC MODELING OF FLEXIBLE PAVEMENTS
• THAW WEAKENING OF PAVEMENT STRUCTURES IN SEASONAL FROST AREAS
• VALIDATION OF CONCRETE PAVEMENT RESPONSES USING INSTRUMENTED PAVEMENTS