00676641

Component

http://onlinepubs.trb.org...trr/1994/1454/1454-013.pdf

https://scholar.google.co...mith&publication_year=1994

The objective was to develop and demonstrate techniques for incorporating the effects of in situ temperature in the mixture-design process without adding significantly to the complexity of testing and analysis. The recommended approach converts the expected traffic, expressed in terms of equivalent single axle loads (ESALs) according to conventional AASHTO practice, into its equivalent value at critical pavement temperature. For both fatigue and permanent deformation, acceptable mixtures are those that resist equivalent laboratory loading in cyclic tests conducted at the critical temperature. Critical temperatures, the points at which most damage occurs in situ, were developed for nine climatic regions throughout the United States using the FHWA's Integrated Climatic Model for determining in situ temperatures. For 20-cm (8-in.) pavements, more than 40% of the fatigue damage and more than 64% of the permanent-deformation damage occurred within a 5 deg C (9 deg F) range centered on the critical temperature. Temperature equivalency factors, used to convert ESALs at one temperature to their equivalent at the critical temperature, were found to depend on mode of distress, the pavement structure, and the asphalt mixture--but to be independent of climate. When multiple temperature laboratory testing is required, for example, when reliability must be unusually high, suitable temperature ranges are 15 deg C to 30 deg C (59 deg F to 86 deg F) for fatigue testing and 30 deg C to 45 deg C (86 deg F to 113 deg F) for permanent-deformation testing.

This paper appears in Transportation Research Record No. 1454, Asphalt Concrete Mixture Design and Performance. 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

01401258

English

p. 97-112

1994

Transportation Research Record

0309060621

Figures (3) ; References (7) ; Tables (17)

Asphalt mixtures; Axle load force; Climate; Cyclic tests; Deformation; Equivalent single axle loads; Failure; Mix design; Temperature; Thermal stresses; Traffic equivalence factor

Design; Highways; Materials; Pavements; I22: Design of Pavements, Railways and Guideways; I23: Properties of Road Surfaces; I31: Bituminous Binders and Materials

TRIS, TRB, ATRI

Apr 21 1995 12:00AM

• APPLICATION OF SHRP MIX PERFORMANCE-BASED SPECIFICATIONS
• COMPARATIVE PERFORMANCE OF PAVEMENT MIXES CONTAINING CONVENTIONAL AND ENGINEERED ASPHALTS
• COMPARISON OF RESULTS OBTAINED FROM THE LCPC RUTTING TESTER WITH PAVEMENTS OF KNOWN FIELD PERFORMANCE
• CORRELATION OF SELECTED LABORATORY COMPACTION METHODS WITH FIELD COMPACTION
• CRITERIA FOR EVALUATION OF RUTTING POTENTIAL BASED ON REPETITIVE UNIAXIAL COMPRESSION TEST
• DEVELOPMENT AND EVALUATION OF THE STRATEGIC HIGHWAY RESEARCH PROGRAM MEASUREMENT AND ANALYSIS SYSTEM FOR INDIRECT TENSILE TESTING AT LOW TEMPERATURES
• EFFECT OF MOISTURE IN AGGREGATES ON PERFORMANCE OF ASPHALT MIXTURES
• EFFECT OF MOISTURE ON LOW-TEMPERATURE ASPHALT MIXTURE PROPERTIES AND THERMAL-CRACKING PERFORMANCE OF PAVEMENTS
• EFFECTS OF LABORATORY SPECIMEN PREPARATION ON AGGREGATE-ASPHALT STRUCTURE, AIR-VOID CONTENT MEASUREMENT, AND REPETITIVE SIMPLE SHEAR TEST RESULTS
• EVALUATION OF FATIGUE AND PERMANENT DEFORMATION PROPERTIES OF SEVERAL ASPHALT-AGGREGATE FIELD MIXES USING STRATEGIC HIGHWAY RESEARCH PROGRAM A-003A EQUIPMENT
• EVALUATION OF STONE MATRIX ASPHALT VERSUS DENSE-GRADED MIXTURES
• EVALUATION OF THREE POLYMER MODIFIED ASPHALT CONCRETES
• EVALUATION OF ULTRATHIN FRICTION COURSE
• EVALUATION OF USING DIFFERENT STABILIZERS IN THE U.S. ROUTE 15 (MARYLAND) STONE MATRIX ASPHALT
• EXPERIENCES WITH THIN BITUMINOUS LAYERS IN AUSTRIA
• FIELD AND LABORATORY INVESTIGATION OF STRIPPING IN ASPHALT PAVEMENTS: STATE OF THE ART REPORT
• FIVE-YEAR EVALUATION OF HMA PROPERTIES AT THE AAMAS TEST PROJECTS
• HEALING IN ASPHALT CONCRETE PAVEMENTS: IS IT REAL?
• RATIONAL METHOD FOR LABORATORY COMPACTION OF HOT-MIX ASPHALT (WITH DISCUSSION AND CLOSURE)
• SEVEN-YEAR PERFORMANCE EVALUATION OF SINGLE PASS, THIN LIFT BITUMINOUS CONCRETE OVERLAYS
• THIN SURFACING MATERIAL TRIALS IN THE UNITED KINGDOM