08851nam 2202737z- 450 991034683780332120231214133404.03-03921-017-3(CKB)4920000000095262(oapen)https://directory.doabooks.org/handle/20.500.12854/46623(EXLCZ)99492000000009526220202102d2019 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEnvironment-Friendly Construction MaterialsVolume 3MDPI - Multidisciplinary Digital Publishing Institute20191 electronic resource (270 p.)3-03921-016-5 Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, “Environment-Friendly Construction Materials”, has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials.fluorescence spectrummicrostructureregenerationsensitivity analysisasphalt mixeslimestone aggregatesbio-oilplateau value of dissipated strain energy ratiodiatomitewater-leaching pretreatmentfatigue performanceultra-thin wearing courserecycling aggregatedesign optimizationinduction heatingvibration noise consumptionbitumenrelaxationviscous-elastic temperaturefield evaluationhealing agentstransmittanceCa-alginate microcapsulesartificially aged asphalt mixturesequencing batch Chlorella reactorwaste concreteplant ash lixiviumsteel fiberultra-high performance concretetitanate coupling agentSEMself-healingphysical propertiesporous pumicethermal–mechanical propertiesaggregate morphologyasphalt mortaradhesion energystyrene–butadiene–styrene (SBS) modified bitumenwater solute exposureemulsified asphaltdemulsification speedmineral-asphalt mixturesaging processesphase change materialssurface texturelong-term drying shrinkagecontact angleaging depthasphaltcalcium alginate capsulesnitrogen and phosphorus removalmicro-morphologyrice husk ashlow-temperaturecementhydrophobic nanosilicaasphalt mixturethickness combinationslayered double hydroxideinitial self-healing temperatureenvironmentally friendly construction materialsepoxidized soybean oillimestonechemical evolutionstemperature sensitivity characteristicsmicro-surfacingcement emulsified asphalt mixturedynamic characteristicshigh-strength concreteflame retardantdurabilitycreepdampingdamage constitutive modelUltra-High Performance Concrete (UHPC)granite aggregatediatomite-modified asphalt mixturehealing modelasphalt combustionfreeze-thaw cycleSBS-modified bitumenworkabilitygrapheneflow behavior indexfluidityparametrizationfatigue propertyrankiniterailway applicationcrystallization sensitivityaqueous solute compositionspozzolanic reactionself-healing asphaltrecycled materialartificial neural networkrheological propertiesmolecular dynamic simulationbuilding envelopesaluminum hydroxidecrumb rubberoptimizationviscoelasticitybuilding energy conservationdiffusinganti-rutting agentmolecular bridgeengineered cementitious composites (ECC)pavement performancemorphologycolloidal structurehydrophilic nanosilicaconstruction materialsroad engineeringlaboratory evaluationrejuvenatorfatigue equationaggregatesthree-point bending fatigue testenergy-based approachaggregate from sanitary ceramic wastespolyacrylic acidmasticCO2specific surface areaaggregate image measurement systemsolubilizerflexibilitysimplex lattice designSBS/CRP-modified bitumenwater stabilityfatigue liferejuvenating systemsskid-resistancereclaimed asphalt pavementrheologyhydration characteristicsurface energymodified asphalt materialsasphalt pavementstripping testSODtensile stressesultraviolet radiationbasalt fiber“blue-shift”polyvinyl alcoholsanitary ceramicsdynamic moduliaggregate characteristicscompound modifyexpanded graphitesteel slaginduced healingthermal propertyeffective heating depthdissipated strain energyMDAmechanical behaviorplateau value of permanent deformation ratiolong-term field servicecrack healingdesulphurization gypsum residuespavement failurerejuvenationinterfacial transition zonecombinationpolyethylene glycoladsorptiontensile strainscold recycled asphalt mixtureresistance to deformationsasphalt-aggregate adhesionviscoelastic propertiesdamage evolutioncarbonationmicrowave heatingamorphous silicahigh-modulus asphalt mixture (HMAM)hot mix asphalt containing recycled concrete aggregatemicrofluidicdynamic responsesconcreteasphalt masticcrumb rubber powderresponse surface methodologynanomaterialself-compacting concrete (SCC)rutting factorX-ray computed tomographyfiber modificationoverlay testerrubber modified asphaltageingaged bitumenaged asphaltrecyclingdamage characteristicsdynamic testspermeationageing resistanceWu Shaopengauth1228283Amirkhanian SerjiauthXiao YueauthHoff IngeauthBOOK9910346837803321Environment-Friendly Construction Materials3018411UNINA