00637674

Component

http://onlinepubs.trb.org...trr/1993/1388/1388-006.pdf

The history and evolution of load equivalency concepts are traced and discussed, in view of the fact that accommodation of mixed traffic consisting of multiwheel load assemblies is of cardinal importance in any pavement design. It is explained that the equivalent single-axle load concept is considerably different from the equivalent single-wheel load (ESWL) approach, inasmuch as the former is statistical-empirical and is based on the assumption of linear pavement damage accumulation, whereas the latter is soundly mechanistic, if relatively crude, and is merely an innovative means of computing responses under multiwheel gears. A third concept, namely, the equivalent single-axle radius (ESAR), is also mechanistic in nature and dispenses with the arbitrary constant pressure or constant radius assumptions of the ESWL approach. According to the ESAR concept, it is possible to determine with reasonable accuracy a primary structural response, such as the maximum bending stress that occurs in a concrete pavement system, through the use of available closed-form equations for a single-wheel load, into which an equivalent single-wheel radius of a multiple-wheel assembly is substituted. The ESAR concept is currently considered for incorporation in an improved mechanistic "limit state" design procedure for concrete pavements. Because of the far-reaching implications of these proposals, rigorous engineering mechanics derivations are used to verify the applicability of the concept for both the dense liquid and the elastic solid foundation.

This paper appears in Transportation Research Record No. 1388, Rigid and Flexible Pavement Design and Rehabilitation. 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

01403222

English

p. 42-51

1993

Transportation Research Record

0309054575

References (41)

Accuracy; Axle load force; Axles; Bending; Bending stress; Concrete pavements; Design; Equivalent single axle loads; History; Load factor; Mechanical analysis; Mechanical loads; Mechanistic design; Stresses; Structural analysis; Structural mechanics; Traffic equivalence factor; Wheel loads

Structural response

Design; Highways; History; Pavements; I22: Design of Pavements, Railways and Guideways; I23: Properties of Road Surfaces

TRIS, TRB, ATRI

Sep 28 1993 12:00AM

• ANALYSIS OF CRACK RESISTANCE OF ASPHALT CONCRETE OVERLAYS--A FRACTURE MECHANICS APPROACH
• ANALYTICAL AND EXPERIMENTAL INVESTIGATIONS OF OPERATING MECHANISMS IN REINFORCED ASPHALT PAVEMENTS
• ANALYTICAL CONSIDERATIONS FOR THIN CONCRETE OVERLAYS ON ASPHALT
• APPLICATION OF CRACKING AND SEATING AND USE OF FIBERS TO CONTROL REFLECTIVE CRACKING
• BREAKING AND SEATING OF CONCRETE PAVEMENTS: KENTUCKY'S EXPERIENCE
• COMPARISON OF FOUR DIFFERENT METHODS FOR MEASURING DEFLECTIONS IN JOINTED REINFORCED CONCRETE PAVEMENTS
• DEVELOPMENT AND IMPLEMENTATION OF A MECHANISTIC, EMPIRICALLY BASED OVERLAY DESIGN PROCEDURE FOR FLEXIBLE PAVEMENTS
• DEVELOPMENT OF STRATEGIC HIGHWAY RESEARCH PROGRAM LONG-TERM PAVEMENT PERFORMANCE CLIMATIC DATA BASE
• DIRECT TENSION AND SIMPLE STIFFNESS TESTS--TOOLS FOR THE FATIGUE DESIGN OF ASPHALT CONCRETE LAYERS
• EFFECTS OF TEMPERATURE ON EARLY CRACK FORMATION IN PORTLAND CEMENT CONCRETE PAVEMENTS
• ESTIMATION OF AXLE LOADS OF HEAVY VEHICLES FOR PAVEMENT STUDIES
• EXAMINATION OF PURE ENVIRONMENTAL EFFECTS ON PAVEMENT CONDITION
• MAJOR FACTORS EXPLAINING PERFORMANCE VARIABILITY OF SEAL COAT PAVEMENT REHABILITATION OVERLAYS
• MAXIMUM BEARING STRESS OF CONCRETE IN DOWELED PORTLAND CEMENT CONCRETE PAVEMENTS (WITH DISCUSSION AND CLOSURE)
• PERFORMANCE MONITORING OF JOINT LOAD TRANSFER RESTORATION
• PERFORMANCE OF INTERLOCKING CONCRETE PAVEMENTS IN NORTH AMERICA
• REHABILITATION PROCEDURES FOR FAULTED RIGID PAVEMENT
• REMAINING FATIGUE LIFE ANALYSIS: COMPARISON BETWEEN DENSE-GRADED CONVENTIONAL ASPHALT CONCRETE AND GAP-GRADED ASPHALT-RUBBER HOT MIX
• RIGID PAVEMENT DESIGN FOR PORTS IN CHILE
• SYSTEMS APPROACH TO THE USE OF AUTOMATION TECHNOLOGY IN DRILLED FOUNDATION CONSTRUCTION
• THEORETICAL ANALYSIS OF THE EFFECTS OF WIDE-BASE TIRES ON FLEXIBLE PAVEMENTS USING CIRCLY
• USE OF A THREE-DIMENSIONAL, DYNAMIC FINITE ELEMENT PROGRAM FOR ANALYSIS OF FLEXIBLE PAVEMENT