TY - BOOK ID - 145490657 TI - High-Performance Eco-Efficient Concrete AU - Thomas, Carlos AU - de Brito, Jorge AU - Corinaldesi, Valeria PY - 2021 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Technology: general issues KW - high-frequency fatigue test KW - recycled aggregate KW - recycled aggregate concrete KW - fatigue KW - Locati test KW - electric arc furnace slags KW - mechanical properties KW - durability KW - self-compacting concrete KW - high-performance concrete KW - EAFS KW - cupola slag KW - electric arc furnace slag KW - shotcrete KW - deep tunnels KW - convergence-confinement method KW - coarse recycled concrete aggregate KW - dry-mix process KW - prefabricated KW - bridge deck KW - prestressed KW - UHPC KW - sustainable KW - biomass bottom ash KW - phosphogypsum KW - alkali activated fine-grained concrete KW - reactive powder concrete KW - basalt fiber KW - chloride-salt corrosion KW - freeze-thaw durability KW - alkali-activated concrete KW - shrinkage KW - cracking KW - internal curing KW - metakaolin KW - ternary binder KW - high performance KW - strength KW - foam KW - lightweight material KW - thermal conductivity KW - fly ash KW - carbon dioxide emission KW - chloride diffusion KW - binding capacity of chlorine KW - HVFA KW - RAC KW - sustainable building KW - reinforced concrete KW - corrosion of concrete KW - fiber-reinforced KW - natural fibers KW - bamboo KW - sustainable mortar KW - mechanical characterization KW - by-products KW - toughness KW - recycled concrete KW - low clinker cement KW - precast KW - physical properties KW - New Jersey barriers KW - recycled aggregates KW - recycled mortar KW - construction and demolition waste KW - decontaminating KW - photocatalysis KW - glass powder KW - green cements KW - slag-pozzolanic cement KW - CEM V KW - tunnel spoil recycling KW - high durability KW - high-frequency fatigue test KW - recycled aggregate KW - recycled aggregate concrete KW - fatigue KW - Locati test KW - electric arc furnace slags KW - mechanical properties KW - durability KW - self-compacting concrete KW - high-performance concrete KW - EAFS KW - cupola slag KW - electric arc furnace slag KW - shotcrete KW - deep tunnels KW - convergence-confinement method KW - coarse recycled concrete aggregate KW - dry-mix process KW - prefabricated KW - bridge deck KW - prestressed KW - UHPC KW - sustainable KW - biomass bottom ash KW - phosphogypsum KW - alkali activated fine-grained concrete KW - reactive powder concrete KW - basalt fiber KW - chloride-salt corrosion KW - freeze-thaw durability KW - alkali-activated concrete KW - shrinkage KW - cracking KW - internal curing KW - metakaolin KW - ternary binder KW - high performance KW - strength KW - foam KW - lightweight material KW - thermal conductivity KW - fly ash KW - carbon dioxide emission KW - chloride diffusion KW - binding capacity of chlorine KW - HVFA KW - RAC KW - sustainable building KW - reinforced concrete KW - corrosion of concrete KW - fiber-reinforced KW - natural fibers KW - bamboo KW - sustainable mortar KW - mechanical characterization KW - by-products KW - toughness KW - recycled concrete KW - low clinker cement KW - precast KW - physical properties KW - New Jersey barriers KW - recycled aggregates KW - recycled mortar KW - construction and demolition waste KW - decontaminating KW - photocatalysis KW - glass powder KW - green cements KW - slag-pozzolanic cement KW - CEM V KW - tunnel spoil recycling KW - high durability UR - https://www.unicat.be/uniCat?func=search&query=sysid:145490657 AB - This book is dedicated to “High-Performance Eco-Efficient Concrete” and concrete fatigue behavior, more sustainable construction materials, capable of complying with quality standards and current innovation policies, aimed at saving natural resources and reducing global pollution. The development of self-compacting concretes with electric arc furnace slags is a further achievement. In addition, the technical and economic viability of using coarse recycled aggregates from crushed concrete in shotcrete, enhanced quality and reduced on-site construction time are the basic features of prefabricated bridge elements and systems, biomass bottom ash as aluminosilicate precursor and phosphogypsum were discussed. On the other hand, basalt fiber improving the mechanical properties and durability of reactive powder concrete, alkali-activated slag and high-volume fly ash and the potential of phosphogypsum as secondary raw material in construction industry, the effects of fly ash on the diffusion, bonding, and microproperties of chloride penetration in concrete were studied. Increasing amounts of sustainable concretes are being used as society becomes more aware of the environment. Finally, the circular economy as an economic model of production and consumption that involves reusing, repairing, refurbishing, and recycling materials after their service life are presented in this book. ER -