TY  - GEN
AU  - Ling,Yifeng
AU  - Fu,Chuanqing
AU  - Zhang,Peng
AU  - Taylor,Peter
AU  - Ling,Yifeng
AU  - Fu,Chuanqing
AU  - Zhang,Peng
AU  - Taylor,Peter
TI  - Advances in Sustainable Concrete System
SN  - books978-3-0365-4443-4
PY  - 2022///
CY  - Basel
PB  - MDPI - Multidisciplinary Digital Publishing Institute
KW  - Technology: general issues
KW  - bicssc
KW  - History of engineering & technology
KW  - Conservation of buildings & building materials
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
N1  - Open Access
N2  - 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
UR  - https://mdpi.com/books/pdfview/book/5614
UR  - https://directory.doabooks.org/handle/20.500.12854/87426
ER  -