Search results for "Accelerated pavement testing"

showing 5 items of 5 documents

Feasibility of using more polishable aggregates in dense-graded asphalt surface mixture: Case study of dolomite

2022

This study aimed to evaluate the feasibility of using more dolomite aggregates in asphalt surface mixtures that are typically used by West Virginia Division of Highways (WVDOH). The laboratory test results indicated that increasing dolomite content in asphalt surface mixtures resulted in a faster deterioration rate at the early polishing stage. In addition, asphalt surface mixtures containing more than 50% dolomite coarse aggregates would significantly reduce roadway safety. The field test results validated that dolomite shall not exceed 50% of coarse aggregate in asphalt surface mixture if the projected traffic volume is greater than 3.0 million equivalent single axle loads (ESALs).

Accelerated pavement testing Dense-graded asphalt mixture Dolomite Shotblasting Surface friction Three-wheel polishingSettore ICAR/04 - Strade Ferrovie Ed AeroportiGeneral Materials ScienceBuilding and ConstructionCivil and Structural EngineeringConstruction and Building Materials
researchProduct

From Laboratory Mixes Evaluation to Full Scale Test: Fatigue Behavior of Bio-Materials Recycled Asphalt Mixtures

2020

The present paper describes the full-scale accelerated test, carried out on asphalt pavements made up with bio-materials, especially designed to help reusing Reclaimed Asphalt (RA) by re-activating the aged binder. Four pavement sections were evaluated: three pavement sections with innovative bio-materials (bio-recycled asphalt mixtures), and a reference section with a conventional, high modulus asphalt mix (EME2). In this study, fatigue resistance was first evaluated in laboratory, with two-points bending test, and then at full scale under heavy traffic loading, with the IFSTTAR accelerated pavement testing facility. The evolution of bio-materials recycled asphalt mixture characteristics, …

Accelerated pavement testingMonitoringBending (metalworking)Reclaimed AsphaltFull scaleBio basedModulusBio-materialAsphaltAccelerated pavement testEnvironmental scienceGeotechnical engineeringFull scale testHeavy trafficFatigue test
researchProduct

Data Compression Approach for Long-Term Monitoring of Pavement Structures

2019

Pavement structures are designed to withstand continuous damage during their design life. Damage starts as soon as the pavement is open to traffic and increases with time. If maintenance activities are not considered in the initial design or considered but not applied during the service life, damage will grow to a point where rehabilitation may be the only and most expensive option left. In order to monitor the evolution of damage and its severity in pavement structures, a novel data compression approach based on cumulative measurements from a piezoelectric sensor is presented in this paper. Specifically, the piezoelectric sensor uses a thin film of polyvinylidene fluoride to sense the ener…

CHAUSSEE (CORPS DE)CHAUSSEEPiezoelectric sensorComputer scienceESSAIFATIGUE (MATER)0211 other engineering and technologies020101 civil engineering02 engineering and technologyDeformation (meteorology)lcsh:Technologyaccelerated pavement testing (apt)0201 civil engineeringPIEZOELECTRICITE[PHYS.MECA.MEMA]Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph]pavement responsespiezoelectric sensorDEFORMATION021105 building & constructionGeneral Materials ScienceCAPTEURStrain gaugeCivil and Structural EngineeringFlexibility (engineering)TESTbusiness.industrylcsh:TBuilding and ConstructionStructural engineeringEpoxyGeotechnical Engineering and Engineering GeologyComputer Science Applications[SPI.GCIV]Engineering Sciences [physics]/Civil EngineeringAsphaltESSAI DE FATIGUEvisual_artService lifeFATIGUE DES MATERIAUXvisual_art.visual_art_mediumfatiguebusinessData compressionlongitudinal strainInfrastructures
researchProduct

Towards More Sustainable Pavement Management Practices Using Embedded Sensor Technologies

2019

Road agencies are constantly being placed in difficult situations when making road maintenance and rehabilitation decisions as a result of diminishing road budgets and mounting environmental concerns for any chosen strategies. This has led practitioners to seek out new alternative and innovative ways of monitoring road conditions and planning maintenance routines. This paper considers the use of innovative piezo-floating gate (PFG) sensors and conventional strain gauges to continuously monitor the pavement condition and subsequently trigger maintenance activities. These technologies can help develop optimized maintenance strategies as opposed to traditional ad-hoc approaches, which often le…

Computer science0211 other engineering and technologies02 engineering and technologylcsh:Technologyenvironmental impactMaintenance systempiezoelectric sensoraccelerated pavement testinglife cycle assessmentRoad networks021105 building & construction0502 economics and businessembedded sensorSettore ICAR/04 - Strade Ferrovie Ed AeroportiGeneral Materials ScienceEnvironmental impact assessmentLife-cycle assessmentCivil and Structural EngineeringPavement management system050210 logistics & transportationAccelerated pavement testinglcsh:T05 social sciencesPavement managementembedded sensorsBuilding and ConstructionGeotechnical Engineering and Engineering GeologyComputer Science ApplicationsWorkflowpiezoelectric sensorsRisk analysis (engineering)Infrastructures
researchProduct

Monitoring road pavement performance through a novel data processing approach, accelerated pavement test results

2020

This research presents a novel performance-based interpretation method for continuous monitoring of pavement condition through the use of piezoelectric sensors. The objective of this study is to validate the compressed cumulative loading event approach, implemented in a previously developed piezoelectric sensor, for detecting subsurface fatigue cracking through full-scale accelerated pavement testing. A piezo-electric film of polyvinylidene fluoride is used to harvest the microstrain energy induced by the traffic loading at the surface. Epoxy is used to protect the sensor following a H-shape packaging. Piezoelectric sensors were exposed to approximately 1.0 million load repetitions between …

Data processingAccelerated pavement testingbusiness.industryPiezoelectric sensorPavement responseContinuous monitoringStructural engineeringLongitudinal strainAccelerated Pavement Testing (APT)Asphalt concreteCrackingEnvironmental scienceStructural health monitoring (SHM)businessStrain gaugeStrain gaugeEnergy (signal processing)Piezoelectric sensor
researchProduct