Sustainable Recycling Techniques of Pavement Materials

doi:10.3390/books978-3-0365-6200-1

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Sustainable Recycling Techniques of Pavement Materials

Edited by

December 2022

272 pages

ISBN978-3-0365-6199-8 (Hardback)
ISBN978-3-0365-6200-1 (PDF)

https://0-doi-org.brum.beds.ac.uk/10.3390/books978-3-0365-6200-1

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This book is a reprint of the Special Issue Sustainable Recycling Techniques of Pavement Materials that was published in

Chemistry & Materials Science

Engineering

Physical Sciences

Summary

This reprint focuses on experimental and applied research on sustainable recycling techniques for pavement materials. The recycling of waste materials in pavement infrastructures could be successfully facilitated based on such techniques.

Sustainability in civil engineering has attracted more attention in recent decades, the lack of natural resources, serious environmental pollution, and high carbon dioxide emissions are the main issues regarding traditional infrastructure materials. This reprint provides the most recent innovations and applications of recycling wastes as high-performance pavement materials, aiming to provide methods for producing green low-carbon and durable pavement structures. In particular, several treatment methods and 3D construction techniques are proposed for the efficient recycling of waste materials.

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Hardback

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Keywords

lignin; waste engine oil; modified asphalt; high-temperature performance; low-temperature performance; recycled waste plastic; asphalt binder and mixture; composite modification; performance; compatibility; asphalt mortar; asphalt mixture; fly ash; high temperature performance; low temperature property; moisture susceptibility; coarse aggregate; 3D printing; natural aggregate; cement-based aggregate; sustainable construction; building demolition waste; unbound granular materials; shear strength; resilient modulus; gradation; prediction model; porous asphalt pavement; high-viscosity modified asphalt; functional group index; aging kinetics; 3D concrete printing; curing conditions; mechanical capacity; solid waste; anisotropy; sustainability; dredged sediment; cement-stabilized; NMR; permeability; strength; pore structure; water transformation; cement stabilized soil; fiber-reinforced soil; mechanical strength; waste utilization; Back Propagation Neural Network; Random Forest; beetle antennae search; diversion tunnel; corrosion; cement-based materials; carbonation; experimental study; steel slag; oxalic acid; expansion; water erosion; asphalt mixture; road performance; influence mechanism; road engineering; stability; molecular dynamic; bio-oil asphalt/water emulsion; particle size; infrared spectrum analysis; asphalt pavement; seashell powder; modified asphalt; high- and low-temperature performance; water stability; n/a