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Green materials in civil engineering / edited by Anasua GuhaRay, Toshiro Hata, Nagesh R. Iyer, Pijush Samui, Sanjay Kumar.

Contributor(s): GuhaRay, Anasua [editor.] | Hata, Toshiro [editor.] | Iyer, Nagesh R [editor.] | Samui, Pijush, 1978- [editor.] | Kumar, Sanjay [editor.]Material type: TextTextSeries: Woodhead Publishing series in civil and structural engineeringPublisher: Oxford : Woodhead Publishing, 2024Description: 1 online resource (450 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9780443191077 (ePub ebook) :Subject(s): Sustainable engineering | Civil engineering -- Environmental aspects | Environment and Ecology | Environmental science, engineering & technology | Materials science | Civil engineering, surveying & buildingAdditional physical formats: Print version :: No titleDDC classification: 628.5 Online access: Open e-book
Contents:
1 A model to predict water retention characteristic curve of fly ash2 Experimental study of the parameter for predicting the strength of geopolymer concretes based on ground granulated blast furnace slag and fly ash3 Mitigating the environmental impacts of conventional concrete-a quantitative sustainable concrete approach4 Consistency, setting, and strength properties of fly ash and slag based geopolymer mortar activated with water5 Developing flyash and slagbased high-strength geopolymer concrete6 Interfacial direct shear behavior of aluminum slag and uniaxialgeogrids7 Fly ash-granulated blast furnace slag: better replacementmaterials for subbase flexible pavement construction8 High performance concrete using fly ash9 Engineering green concrete for sustainable infrastructure10 Behavior assessment of poor subgrade soil using natural coir geotextile under static and repeated load condition11 Utilization of higher percentage of reclaimed asphalt pavement material in bituminous mixtures12 Mineral wastes13 Morphology and strength of concrete incorporating natural rubber latex and plastic fibers14 Fiber-reinforced polymer nanocomposites for structural retrofitting applications15 Biological materials for geotechnical engineering16 A review on microstructural characteristics of bacterial concrete17 Geoenvironmental evaluation on coal gangue: greener alternative to existing fill materials18 Utilization of Sustainable Material: Ferrock for Stabilization of Subgrade Soil
Summary: Green Materials in Civil Engineering provides a comprehensive resource for practitioners to learn more about the utilization of these materials in civil engineering, as well as their practical applications. Novel green materials such as fly ash, slag, fiber-reinforced concrete and soil, smart materials, carbon fibre reinforced polymers, waste materials, biological materials, and waste materials such as building and demolition waste, recycled asphalt, and industrial by-products are discussed in detail. Emphasis is placed on understanding the qualities, selection criteria, products and applications, durability, life cycle, and recyclability of these materials.The book will be a valuable reference resource for academic and industrial researchers, materials scientists and civil engineers who are working in the development of construction materials and utilization of waste and other fine by-products in the production of concrete and other construction materials.
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1 A model to predict water retention characteristic curve of fly ash2 Experimental study of the parameter for predicting the strength of geopolymer concretes based on ground granulated blast furnace slag and fly ash3 Mitigating the environmental impacts of conventional concrete-a quantitative sustainable concrete approach4 Consistency, setting, and strength properties of fly ash and slag based geopolymer mortar activated with water5 Developing flyash and slagbased high-strength geopolymer concrete6 Interfacial direct shear behavior of aluminum slag and uniaxialgeogrids7 Fly ash-granulated blast furnace slag: better replacementmaterials for subbase flexible pavement construction8 High performance concrete using fly ash9 Engineering green concrete for sustainable infrastructure10 Behavior assessment of poor subgrade soil using natural coir geotextile under static and repeated load condition11 Utilization of higher percentage of reclaimed asphalt pavement material in bituminous mixtures12 Mineral wastes13 Morphology and strength of concrete incorporating natural rubber latex and plastic fibers14 Fiber-reinforced polymer nanocomposites for structural retrofitting applications15 Biological materials for geotechnical engineering16 A review on microstructural characteristics of bacterial concrete17 Geoenvironmental evaluation on coal gangue: greener alternative to existing fill materials18 Utilization of Sustainable Material: Ferrock for Stabilization of Subgrade Soil

Green Materials in Civil Engineering provides a comprehensive resource for practitioners to learn more about the utilization of these materials in civil engineering, as well as their practical applications. Novel green materials such as fly ash, slag, fiber-reinforced concrete and soil, smart materials, carbon fibre reinforced polymers, waste materials, biological materials, and waste materials such as building and demolition waste, recycled asphalt, and industrial by-products are discussed in detail. Emphasis is placed on understanding the qualities, selection criteria, products and applications, durability, life cycle, and recyclability of these materials.The book will be a valuable reference resource for academic and industrial researchers, materials scientists and civil engineers who are working in the development of construction materials and utilization of waste and other fine by-products in the production of concrete and other construction materials.

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