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Sustainable Recycling Techniques of Pavement Materials
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This book 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 book 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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Keywords
- 3D concrete printing
- 3D printing
- aging kinetics
- anisotropy
- asphalt binder and mixture
- asphalt mixture
- asphalt mortar
- asphalt pavement
- back propagation neural network
- beetle antennae search
- bio-oil asphalt/water emulsion
- building demolition waste
- carbonation
- cement stabilized soil
- cement-based aggregate
- cement-based materials
- cement-stabilized
- coarse aggregate
- compatibility
- composite modification
- Corrosion
- curing conditions
- diversion tunnel
- dredged sediment
- expansion
- experimental study
- fiber-reinforced soil
- fly ash
- functional group index
- Gradation
- high temperature performance
- high- and low-temperature performance
- high-temperature performance
- high-viscosity modified asphalt
- History of engineering & technology
- influence mechanism
- infrared spectrum analysis
- lignin
- low temperature property
- low-temperature performance
- mechanical capacity
- mechanical strength
- modified asphalt
- moisture susceptibility
- molecular dynamic
- n/a
- natural aggregate
- NMR
- oxalic acid
- particle size
- Performance
- Permeability
- pore structure
- porous asphalt pavement
- prediction model
- random forest
- recycled waste plastic
- resilient modulus
- road engineering
- road performance
- seashell powder
- shear strength
- Solid waste
- Stability
- steel slag
- strength
- sustainability
- sustainable construction
- Technology, engineering, agriculture
- Technology: general issues
- unbound granular materials
- waste engine oil
- waste utilization
- water erosion
- water stability
- water transformation
Links
DOI: 10.3390/books978-3-0365-6200-1Editions