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This book is dedicated to the use of nanomaterials for the modification of asphalt binders, and to investigate whether or not the use of nanomaterials for asphalt mixtures fabrication achieves more effective asphalt pavement layers. A total of 10 contributions are included. Four are related to “Binder’s modification” and five to “Asphalt mixtures’ modification”. The remaining contribution is a review of the effects of the modifications on nanomaterials, particularly nanosilica, nanoclays and nanoiron, on the performance of asphalt mixtures. The published group of papers fosters awareness about the use of nanomaterials to modify asphalt mixtures to obtain more performant and durable flexible road pavements.

Graphene nano-platelets (GNPs) --- asphalt --- Scanning Electron Microscope (SEM) --- structural performance --- functional performance --- nanomaterials --- life cycle assessment --- nano-modified asphalt materials --- environmental impact --- spring-thaw season --- freeze-thaw cycle --- Nanomaterial modifier --- nano hydrophobic silane silica --- property improvement --- seasonally frozen region --- aggregate-bitumen interface --- bond strength --- nano titanium dioxide --- epoxy emulsified asphalt --- photocatalysis --- exhaust gas degradation --- modified asphalt mixtures --- polymers --- rheological behavior --- fatigue cracking --- permanent deformation --- modified bitumen --- nanosilica --- nanoclay --- nanoiron --- asphalt mixtures --- mechanical performance --- aging sensitivity --- ageing --- plastic film --- urban waste --- moisture --- indirect tensile strength --- graphene nanoplatelets (GNPs) --- EAF steel slag --- microwave heating --- self-healing --- Asphalt modification --- modifier chemistry --- long-term aging --- asphalt rheology --- phase angle --- delta Tc --- n/a

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book is dedicated to the use of nanomaterials for the modification of asphalt binders, and to investigate whether or not the use of nanomaterials for asphalt mixtures fabrication achieves more effective asphalt pavement layers. A total of 10 contributions are included. Four are related to “Binder’s modification” and five to “Asphalt mixtures’ modification”. The remaining contribution is a review of the effects of the modifications on nanomaterials, particularly nanosilica, nanoclays and nanoiron, on the performance of asphalt mixtures. The published group of papers fosters awareness about the use of nanomaterials to modify asphalt mixtures to obtain more performant and durable flexible road pavements.

History of engineering & technology --- Graphene nano-platelets (GNPs) --- asphalt --- Scanning Electron Microscope (SEM) --- structural performance --- functional performance --- nanomaterials --- life cycle assessment --- nano-modified asphalt materials --- environmental impact --- spring-thaw season --- freeze-thaw cycle --- Nanomaterial modifier --- nano hydrophobic silane silica --- property improvement --- seasonally frozen region --- aggregate-bitumen interface --- bond strength --- nano titanium dioxide --- epoxy emulsified asphalt --- photocatalysis --- exhaust gas degradation --- modified asphalt mixtures --- polymers --- rheological behavior --- fatigue cracking --- permanent deformation --- modified bitumen --- nanosilica --- nanoclay --- nanoiron --- asphalt mixtures --- mechanical performance --- aging sensitivity --- ageing --- plastic film --- urban waste --- moisture --- indirect tensile strength --- graphene nanoplatelets (GNPs) --- EAF steel slag --- microwave heating --- self-healing --- Asphalt modification --- modifier chemistry --- long-term aging --- asphalt rheology --- phase angle --- delta Tc --- n/a

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Environmental challenges posed by wrong end of lifeplastic management drive the plastics recycling schemes for energy recovery and cutting emissions, penalties, energy consumption, non-renewable resources, and manufacturing costs. Plastic recycling has the lowest environmental impact on global warming potential and total energy use. However, under-utilised plastic wastes due to low value issues with sorting/contamination pose major challenges. Novel technologies drive innovation in a circular economy model for plastics and employ reuse, recycling and responsible manufacture solutions, support the development of new industries and jobs, reduce emissions and increase efficient use of natural resources (including energy, water and materials). Many economies are working towards achieving a zero plastic waste economy. This Special Issue covers the applications of recycled plastics in the areas of energy recovery/alternative fuels, economic analyses, bitumen additives, flame retardants, recycled polymer nanocomposites to enhance the mechanical property, thermomechanical recycling to improve physical properties, mechano-chemical treatment, cryogenic waste tyre recycling, application in decarbonizing technology, e.g., cement industry, waste characterization, improving agricultural soil quality, as smart fertilizers. The Editors express their appreciation to all the contributors across the world in the development of this reprint. This reprint gives different perspectives and technical ideas for the transformation of plastic wastes into value-added products and to achieve higher recycling rates in the coming years.

Research & information: general --- Environmental economics --- Pollution control --- lignin --- bituminous modifier --- lignin modified bitumen --- chemical analysis --- rheological behavior --- mechanical properties --- road engineering --- open graded friction course --- viscoelastic properties --- creep compliance --- relaxation modulus --- dynamic modulus --- linear correlation --- polymer-modified asphalt --- Hamburg wheel-tracking --- indirect tensile strength --- co-pyrolysis --- synergy --- kinetics --- plastic waste --- animal manure --- cement decarbonization --- waste utilization --- co-pyro-gasification --- carbon conversions --- non-soot catalysts --- clean energy --- polymer --- rubber --- recycling --- cryoagent --- liquid nitrogen --- waste tire --- thermal conductivity --- post-consumer waste --- mechanical recycling --- polyethylene --- polypropylene --- contamination --- composition --- tensile properties --- impact properties --- compatibilisation --- polymer based post-consumer waste --- mechano-chemical treatment --- ball milling --- thiol-ene --- carbon nanotubes --- polysilicone --- functionalization --- flame retardancy --- dispersion --- epoxy resin --- silicone --- thermal degradation --- activation energy --- poly (l-lactic acid) --- poly (3-hydroxybutyrate-co-3-hydroxyvalerate) --- non-isothermal crystallisation kinetics --- circular economy --- circo-economics --- material circularity indicator --- packaging --- recycled opaque PET --- reactive extrusion --- chain extension --- long-chain branching --- polyethylene-modified bitumen --- wax-based additives --- rutting --- linear viscoelastic properties --- combustion --- automotive shredder residue --- solid recovered fuel --- alternative fuels --- sustainable energy --- waste-to-energy