Plastic Waste for Sustainable Asphalt Roads
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portes grátis
Plastic Waste for Sustainable Asphalt Roads
Nizamuddin, Sabzoi; Giustozzi, Filippo
Elsevier Science Publishing Co Inc
01/2022
404
Mole
Inglês
9780323857895
15 a 20 dias
680
Descrição não disponível.
SECTION 1: Waste plastics-problems and opportunities 1. Polymers and plastics: Types, properties, and manufacturing 2. Thermo-mechanical, rheological, and chemical properties of recycled plastics 3. "Road-grade" recycled plastics: A critical discussion SECTION 2: Waste plastics' effect on bitumen performance 4. Rheological performance of soft and rigid waste plastic-modified bitumen and mastics 5. Rheological evaluation of PE waste-modified bitumen with particular emphasis on rutting resistance 6. Rutting of waste plastic-modified bitumen SECTION 3: Waste plastics' effect on asphalt performance 7. Volumetric properties, workability, and mechanical performance of waste plastic-modified asphalt mixtures 8. Fatigue resistance of waste plastic-modified asphalt SECTION 4: Combination of waste plastics with other road materials 9. The role of new compatibilizers in hybrid combinations of waste plastics and waste vehicle tyres crumb rubber-modified bitumen 10. Hybrid combination of waste plastics and graphene for high-performance sustainable roads 11. Influence of compatibilizers on the storage stability of hybrid polymer-modified bitumen SECTION 5: Potential environmental issues of waste plastics in roads 12. Fuming and emissions of waste plastics in bitumen at high temperature 13. Road dust-associated microplastics from vehicle traffics and weathering SECTION 6: Life cycle assessment (LCA) and techno-economic analysis of waste plastics in roads 14. Life cycle assessment (LCA) of waste plastics in road pavementd: Theoretical modeling 15. Environmental product declarations (EPDs)/product category rules (PCRs) of waste plastics and recycled materials in roads SECTION 7: Case studies 16. Application of plastic-modified asphalt for the reconstruction of the Morandi bridge in Genoa, Italy 17. Sustainable alternatives for the reuse of plastic waste in asphalt mixtures: From the laboratory to the field
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Sustainability; Recycling; Environment; Waste Plastics; Polymers; Bitumen; Life Cycle Assessment; Techno-economic analysis; Thermo-mechanical properties; Chemo-rheological properties
SECTION 1: Waste plastics-problems and opportunities 1. Polymers and plastics: Types, properties, and manufacturing 2. Thermo-mechanical, rheological, and chemical properties of recycled plastics 3. "Road-grade" recycled plastics: A critical discussion SECTION 2: Waste plastics' effect on bitumen performance 4. Rheological performance of soft and rigid waste plastic-modified bitumen and mastics 5. Rheological evaluation of PE waste-modified bitumen with particular emphasis on rutting resistance 6. Rutting of waste plastic-modified bitumen SECTION 3: Waste plastics' effect on asphalt performance 7. Volumetric properties, workability, and mechanical performance of waste plastic-modified asphalt mixtures 8. Fatigue resistance of waste plastic-modified asphalt SECTION 4: Combination of waste plastics with other road materials 9. The role of new compatibilizers in hybrid combinations of waste plastics and waste vehicle tyres crumb rubber-modified bitumen 10. Hybrid combination of waste plastics and graphene for high-performance sustainable roads 11. Influence of compatibilizers on the storage stability of hybrid polymer-modified bitumen SECTION 5: Potential environmental issues of waste plastics in roads 12. Fuming and emissions of waste plastics in bitumen at high temperature 13. Road dust-associated microplastics from vehicle traffics and weathering SECTION 6: Life cycle assessment (LCA) and techno-economic analysis of waste plastics in roads 14. Life cycle assessment (LCA) of waste plastics in road pavementd: Theoretical modeling 15. Environmental product declarations (EPDs)/product category rules (PCRs) of waste plastics and recycled materials in roads SECTION 7: Case studies 16. Application of plastic-modified asphalt for the reconstruction of the Morandi bridge in Genoa, Italy 17. Sustainable alternatives for the reuse of plastic waste in asphalt mixtures: From the laboratory to the field
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.