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Sustainable Construction Materials: From Paste to Concrete
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With increasing attention on the reduction of CO2 emissions, the sustainability of construction materials has become one of the most growing issues in concrete science and engineering research fields. New sustainable construction materials, such as alkali-activated materials, calcium sulfoaluminate (CSA) cement, and limestone calcined clay cement (LC3), have been suggested and high-performance and/or highly durable construction materials using special admixtures, such as nanomaterials, have been studied to reduce the environmental impact during the life cycle of construction materials.This Special Issue aims to highlight and share recent findings in developing new sustainable cementitious materials, modeling their hydration kinetics, investigating their microstructure, improving the performance and durability of cementitious materials using functional supplementary ingredients, suggesting novel test methods for new construction materials, etc. In this Special Issue are presented the following areas:Sustainable concrete and alternative binders;Hydration kinetics of sustainable cementitious materials;Characterization of sustainable cementitious materials;Re-utilization of industrial by-products for construction materials;High strength and durable cementitious materials;Property enhancement by functional additives;Energy storage through construction materials.
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Keywords
- active carbon
- alkali-activated materials
- alternative additives
- alternative cementitious binders
- alternative water resources
- amorphous metallic fiber
- anatase TiO2
- architectural injection grout
- autogenous shrinkage
- auxiliary activator
- belite-rich Portland cement
- bottom ash
- calcium silicate hydrate
- Calorimetry
- CaO-activation
- Carbon Dioxide
- carbonation
- carbonation curing
- cement composite
- cement paste
- chemical resistance
- Circular Economy
- clinker binder and aggregate
- CO2 uptake
- cold-bonded pelletization
- compressive strength
- Concrete
- constitutive relations
- construction and demolition waste
- construction materials
- construction waste materials
- cover depth
- crack healing
- curing
- damage mechanics
- dry hydrated lime
- drying shrinkage
- ductility concrete
- durability
- embodied carbon
- fiber reinforced polymer
- filler effect
- fine aggregate
- fine recycled aggregate
- finite element analysis
- flexural performance
- flexural strength
- foam composite
- freezing
- GGBFS
- heavy metal leaching
- high-strength
- History of engineering & technology
- hydration products
- hydration reaction
- industrial waste management
- internal curing
- ISO22197-1
- LC3
- limestone
- low-velocity impact load
- Materials design
- Materials properties
- Materials science
- Mechanical engineering & materials
- Mechanical properties
- metakaolin
- micropore volume
- Microstructure
- mortar
- nano-silica
- nitrogen oxides (NOx)
- no-slump
- nuclear magnetic resonance
- particle density
- phase assemblage
- photocatalysis
- Pollution
- pore structure
- porosity
- Portland cement
- pozzolanic activity
- recycled aggregate
- recycled aggregate concrete
- recycled asphalt
- recycled concrete aggregate
- recycled masonry aggregate
- recycling
- residues
- Rhodobacter capsulatus
- self-healing of cracks
- Service life
- setting time
- sewage concrete
- silica fume
- specific surface area
- strength
- strengthening methods
- sulfate ion
- superabsorbent polymer
- supplementary cementitious materials
- surface coating
- sustainable concrete
- sustainable construction materials
- Sustainable development
- sustainable ultra-high-performance paste
- Technology, engineering, agriculture
- Technology: general issues
- thawing
- thermodynamic modeling
- thermogravimetry
- Titanium dioxide (TiO2)
- titanium dioxide nanotube
- two-way slab
- UHPC
- ultra-high-performance concrete
- ultrasonic measurements
- wastewater
- water flow test
- workability
- X-ray diffraction
Links
DOI: 10.3390/books978-3-0365-6860-7Editions