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Achievements and Prospects of Functional Pavement

Materials and Structures

dc.contributor.editorZheng, Jian-long
dc.contributor.editorYou, Zhanping
dc.contributor.editorLiu, Xueyan
dc.date.accessioned2022-11-17T16:27:40Z
dc.date.available2022-11-17T16:27:40Z
dc.date.issued2022
dc.identifierONIX_20221117_9783036555416_105
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/93848
dc.description.abstractIn order to further promote the development of functional pavement technology, a Special Issue entitled “Achievements and Prospects of Functional Pavement” has been proposed by a group of guest editors. To achieve this objective, the articles included in this Special Issue are related to different aspects of functional pavements, including green roads to decrease carbon emissions, noise, and pollution, safety pavements to increase skid resistance through water drainage and snow removal, intelligent roads for monitoring, power generation, temperature control and management, and durable roads to increase service life with new theories, new design methods, and prediction models, as highlighted in this editorial.
dc.languageEnglish
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issuesen_US
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technologyen_US
dc.subject.classificationthema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TR Transport technology and tradesen_US
dc.subject.otheroyster shell powder
dc.subject.othercalcite filler
dc.subject.otherasphalt mastics
dc.subject.otherrutting
dc.subject.otherfatigue cracking
dc.subject.otherthermal stability
dc.subject.otherglass transition temperature
dc.subject.othermodified asphalt
dc.subject.otherfatigue resistance
dc.subject.otherMSCR
dc.subject.otherintermediate temperature
dc.subject.othercement-treated aggregate base
dc.subject.otherfatigue equation
dc.subject.otherloading rates
dc.subject.othertrue stress ratio
dc.subject.otherflexural strength
dc.subject.otheralgorithm
dc.subject.otheraggregates
dc.subject.otherreconstitution
dc.subject.otherimage processing
dc.subject.othervirtual modelling
dc.subject.otherasphalt pavements
dc.subject.othertop-down cracking mechanism
dc.subject.othershear damage
dc.subject.othertension propagation
dc.subject.otherrock asphalt
dc.subject.othercreep test
dc.subject.otherthermal crack
dc.subject.otherviscoelastic model
dc.subject.otheroil shale waste
dc.subject.othersilane coupling agent
dc.subject.otherreplace fine aggregate
dc.subject.otherresponse surface methodology
dc.subject.othercentral composite design
dc.subject.otherbio-char
dc.subject.otherasphalt
dc.subject.othermicroscopic morphology
dc.subject.otherrheological properties
dc.subject.otheranti-aging properties
dc.subject.othernon-Newtonian behavior
dc.subject.otherviscosity
dc.subject.otherbitumen
dc.subject.othercrumb rubber modifier (CRM)
dc.subject.otherwarm mix asphalt
dc.subject.otherasphalt mixture
dc.subject.otherPAN fiber
dc.subject.otherfatigue performance
dc.subject.otherfatigue model
dc.subject.otherloading condition
dc.subject.otherintermediate principle stress
dc.subject.othercompressive strength
dc.subject.othertrue-triaxial
dc.subject.otherasphalt mixtures
dc.subject.othercement stabilized macadam
dc.subject.othergradation
dc.subject.othercement content
dc.subject.otherpreparation technique
dc.subject.otheremulsified asphalt
dc.subject.othernano-TiO2
dc.subject.otherphotocatalytic coating
dc.subject.otherdegradation of exhaust gas
dc.subject.otherroad engineering
dc.subject.othercrack resistance
dc.subject.otherfatigue crack propagation test
dc.subject.otherreliability
dc.subject.otherrubber asphalt stress absorption layer (RASAL)
dc.subject.otherhigh viscous asphalt sand stress absorption layer (HVASAL)
dc.subject.otherasphalt overlay
dc.subject.otherconcrete pavement
dc.subject.othertextural characteristics
dc.subject.othernoise
dc.subject.othercorrelation analysis
dc.subject.otherasphalt mortar
dc.subject.otherageing
dc.subject.otherFTIR
dc.subject.otherstiffness
dc.subject.otherstrength
dc.subject.otherInduction heating
dc.subject.otherpavement compaction
dc.subject.otherporous asphalt mixes
dc.subject.othercomputational tools
dc.subject.otherHMAC
dc.subject.otherdynamic response
dc.subject.othermoving load
dc.subject.othertemperature field
dc.subject.otherrutting resistance
dc.subject.otherthe permanent deformation
dc.subject.otherrejuvenation
dc.subject.otheralginate
dc.subject.othercapsules
dc.subject.otherdiatomite
dc.subject.otherrheological characteristics
dc.subject.otherhigh temperature performance
dc.subject.otherlow temperature performance
dc.subject.otherred clay
dc.subject.otheradditive
dc.subject.otherresilient modulus
dc.subject.otherprediction models
dc.subject.othernew comprehensive prediction model
dc.subject.otherfunctional pavement
dc.subject.othergreen road
dc.subject.othersafety pavement
dc.subject.otherintelligent road
dc.subject.otherdurable road
dc.subject.otherpavement materials
dc.titleAchievements and Prospects of Functional Pavement
dc.title.alternativeMaterials and Structures
dc.typebook
oapen.identifier.doi10.3390/books978-3-0365-5541-6
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783036555416
oapen.relation.isbn9783036555423
oapen.pages334
oapen.place.publicationBasel


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