06582nam 2201825z- 450 991058021190332120231214133503.0(CKB)5690000000011969(oapen)https://directory.doabooks.org/handle/20.500.12854/87426(EXLCZ)99569000000001196920202207d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvances in Sustainable Concrete SystemBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (408 p.)3-0365-4444-5 3-0365-4443-7 In recent years, the implementation of sustainable concrete systems has been a topic of great interest in the field of construction engineering worldwide, as a result of the large and rapid increase in carbon emissions and environmental problems resulting from traditional concrete production and industry. For example, the uses of supplementary cementitious materials, geopolymer binder, recycled aggregate and industrial/agricultural wastes in concrete are all approaches to building a sustainable concrete system. However, such materials have inherent flaws due to their variety of sources, and exhibit very different properties compared with traditional concrete. Therefore, they require specific modifications in preprocessing, design, and evaluation before use in concrete. This reprint, entitled “Advances in Sustainable Concrete System”, covers a broad range of advanced concrete research in environmentally friendly concretes, cost-effective admixtures, and waste recycling, specifically including the design methods, mechanical properties, durability, microstructure, various models, hydration mechanisms, and practical applications of solid wastes in concrete systems.Technology: general issuesbicsscHistory of engineering & technologybicsscConservation of buildings & building materialsbicsschigh-strength concreteenergy evolutionelastic strain energybrittleness evaluation indexconcretehumiditymoisture absorptionmoisture desorptionnumerical simulationacoustic emissionAE rate process theorycorrosion ratedamage evolutionaxial loadprecast concrete structurelattice girder semi-precast slabsbending resistanceFE modellingconcrete damageGSPhigh strengthhydrationstrengthpenetrabilityrice husk ashsustainable concreteartificial neural networksmultiple linear regressioneco-friendly concretegreen concretesustainable developmentartificial intelligencedata sciencemachine learningbagasse ashmechanical propertiesnatural coarse aggregaterecycled coarse aggregatetwo-stage concretematerials designrecycled concretecrumb rubber concretecrumb rubberNaOH treatmentlime treatmentwater treatmentdetergent treatmentcompressive strengthmaterialsadhesively-bonded jointtemperature agingresidual strengthmechanical behaviorfailure criterionsteel slag powdercompound activatormortar strengthorthogonal experimentGM (0, N) modelultrafine metakaolinsilica fumedurabilityfiber-reinforced concretedamage mechanismuniaxial tensioncracked concretecrack widthcrack depthtortuositysustainabilityconcrete compositessulfate and acid attacksWPFT fiberscoal ganguegradationcement contentunconfined compressive strengthfreeze-thaw cycleminimum energy dissipation principlethree-shear energy yield criteriondamage variableconstitutive modelphosphorus slaglimestonesulphate-corrosion resistancevolume deformationblast furnace ferronickel slagalkali-activated materialdosage of activatorreactive powder concretebeam-column jointFE modelingcrackcementitious gravelfly ashageoptimal dosagebamboosawdustpretreatmentbio-based materialmechanical propertyself-compacting concretesupplementary cementitious materialshydration mechanismsmicrostructurefresh propertiessynthetic polymerhigh temperaturebentonite-free drilling fluidrheologyfiltrationFRP reinforced concrete slabpunching shear strengthSHAPTechnology: general issuesHistory of engineering & technologyConservation of buildings & building materialsLing Yifengedt1337706Fu ChuanqingedtZhang PengedtTaylor PeteredtLing YifengothFu ChuanqingothZhang PengothTaylor PeterothBOOK9910580211903321Advances in Sustainable Concrete System3057343UNINA