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Advances in Regenerated Asphalt Mixtures
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The recycling of asphalt mixtures has significant contributions towards the reduction in greenhouse gases, pollution, natural resources, and energy consumption. Sustainable road materials and technologies can provide a powerful boost to “carbon-neutral strategies”, and so it is crucial to continue moving towards improving these technologies and theories.This Special Issue includes new findings in the field of regenerated asphalt mixtures, including the high-content regeneration of RAP, cold recycling technologies, regenerated mechanisms, eco-regenerating agents, and anti-aged materials. Additionally, novel materials, fast maintenance technologies, and functional materials are also addressed in this Special Issue, such as bio-asphalt materials, intelligent transportation, self-healing technologies, solid waste resource applications, numerical simulations, smart road materials and technologies, etc.
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Keywords
- aged asphalt
- aggregate gradation
- anti-aging properties
- asphalt
- asphalt concrete mixture
- asphalt mastic
- asphalt mixture
- asphalt mortar
- asphalt–aggregate interaction
- bitumen
- bitumen/cement composite mixture
- Buton rock asphalt
- Chemical structure
- crumb rubber (CR)
- early-strength
- filler
- heavy-metal ions
- History of engineering & technology
- infrared thermal imaging technology of an unmanned aerial vehicle (UAV)
- interfacial bond strength
- L-DMA
- light component
- Materials science
- Mechanical engineering & materials
- melt temperature threshold
- microstructure and morphology
- mixture performance
- modification mechanism
- modified asphalt
- moisture damage
- molding temperature-road performance prediction model
- mussel bionic materials
- n/a
- optimal temperature measurement height
- overall desirability
- particle size
- phosphogypsum
- physical property
- radar chart evaluation
- rap
- reclaimed asphalt
- recycled asphalt mixtures
- rheological performance
- rheological properties
- road performance
- rutting performance
- self-compacted
- skeletal dense structure
- steel slag
- steel slag powder
- steel-slag powder
- storage stability
- strength formation mechanism
- swelled mechanism
- Technology, engineering, agriculture
- Technology: general issues
- thermal-oxygen aging
- tung oil composite regenerating agent
- UV aging
- volumetric parameters
Links
DOI: 10.3390/books978-3-0365-7348-9Editions