TY - BOOK ID - 134893262 TI - Advances in Sustainable Concrete System AU - Ling, Yifeng AU - Fu, Chuanqing AU - Zhang, Peng AU - Taylor, Peter PY - 2022 PB - Basel MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - high-strength concrete KW - energy evolution KW - elastic strain energy KW - brittleness evaluation index KW - concrete KW - humidity KW - moisture absorption KW - moisture desorption KW - numerical simulation KW - acoustic emission KW - AE rate process theory KW - corrosion rate KW - damage evolution KW - axial load KW - precast concrete structure KW - lattice girder semi-precast slabs KW - bending resistance KW - FE modelling KW - concrete damage KW - GSP KW - high strength KW - hydration KW - strength KW - penetrability KW - rice husk ash KW - sustainable concrete KW - artificial neural networks KW - multiple linear regression KW - eco-friendly concrete KW - green concrete KW - sustainable development KW - artificial intelligence KW - data science KW - machine learning KW - bagasse ash KW - mechanical properties KW - natural coarse aggregate KW - recycled coarse aggregate KW - two-stage concrete KW - materials design KW - recycled concrete KW - crumb rubber concrete KW - crumb rubber KW - NaOH treatment KW - lime treatment KW - water treatment KW - detergent treatment KW - compressive strength KW - materials KW - adhesively-bonded joint KW - temperature aging KW - residual strength KW - mechanical behavior KW - failure criterion KW - steel slag powder KW - compound activator KW - mortar strength KW - orthogonal experiment KW - GM (0, N) model KW - ultrafine metakaolin KW - silica fume KW - durability KW - fiber-reinforced concrete KW - damage mechanism KW - uniaxial tension KW - cracked concrete KW - crack width KW - crack depth KW - tortuosity KW - sustainability KW - concrete composites KW - sulfate and acid attacks KW - WPFT fibers KW - coal gangue KW - gradation KW - cement content KW - unconfined compressive strength KW - freeze–thaw cycle KW - minimum energy dissipation principle KW - three-shear energy yield criterion KW - damage variable KW - constitutive model KW - phosphorus slag KW - limestone KW - sulphate-corrosion resistance KW - volume deformation KW - blast furnace ferronickel slag KW - alkali-activated material KW - dosage of activator KW - reactive powder concrete KW - beam-column joint KW - FE modeling KW - crack KW - cementitious gravel KW - fly ash KW - age KW - optimal dosage KW - bamboo KW - sawdust KW - pretreatment KW - bio-based material KW - mechanical property KW - self-compacting concrete KW - supplementary cementitious materials KW - hydration mechanisms KW - microstructure KW - fresh properties KW - synthetic polymer KW - high temperature KW - bentonite-free drilling fluid KW - rheology KW - filtration KW - FRP reinforced concrete slab KW - punching shear strength KW - SHAP KW - n/a KW - freeze-thaw cycle UR - https://www.unicat.be/uniCat?func=search&query=sysid:134893262 AB - 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. ER -