TY - BOOK ID - 138352033 TI - Properties and Novel Applications of Recycled Aggregates PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - steel reinforced concrete KW - polarization KW - coal bottom ash KW - coal fly ash KW - waste KW - aggregates KW - fines processing KW - porosity KW - recycled aggregates KW - permeable concrete KW - interfacial transition zone KW - image analysis KW - porosimetry mercury intrusion KW - lime treatment KW - modified Proctor KW - CBR KW - subbase KW - road construction KW - concrete KW - slag KW - valorisation KW - cement KW - circular economy KW - statistical analysis KW - estimation KW - permeability KW - constant head method KW - estimation coefficient of permeability KW - recycled concrete aggregate KW - recycled aggregate KW - polyacrylonitrile microfibers KW - electrospinning KW - durability KW - carbonation KW - 3D BFEM KW - recycled aggregate concrete KW - numerical simulation KW - failure pattern KW - cathode ray tube glass KW - civil infrastructures KW - cement-treated materials KW - self-compacting concrete KW - coarse recycled aggregate KW - sustainable concrete KW - construction and demolition waste management plant KW - mercury intrusion porosimetry KW - SEM observation KW - new paste KW - compressive strength KW - construction and demolition waste KW - recycled fine aggregate KW - mortars KW - sustainable construction KW - mining waste KW - ultra-high performance fibres reinforced concrete KW - flexural strength KW - seaport loading platform KW - structural granular layers UR - https://www.unicat.be/uniCat?func=search&query=sysid:138352033 AB - The aggregates used in construction are the natural resource consumed the most in the world after air and water. Due to overexploitation, all environmental laws reward the use of recycled materials to guarantee the reduction of consumption of natural aggregates. The use of reclaimed aggregates, reused aggregates, and recycled aggregates increases sustainability in construction activities. Today, they are strategic materials in the manufacturing of green concrete and mortars and as road construction eco-efficient materials. In addition, the use of recycled aggregates from industrial or mining byproducts presents great potential in construction activities as recycled aggregates and/or supplementary cementitious materials. This Special Issue is open to new experiences in construction materials and/or works made with recycled aggregates. ER -