Description

Book Synopsis


Table of Contents
1 A model to predict water retention characteristic curve of fly ash 2 Experimental study of the parameter for predicting the strength of geopolymer concretes based on ground granulated blast furnace slag and fly ash 3 Mitigating the environmental impacts of conventional concrete—a quantitative sustainable concrete approach 4 Consistency, setting, and strength properties of fly ash and slag based geopolymer mortar activated with water 5 Developing flyash and slagbased high-strength geopolymer concrete 6 Interfacial direct shear behavior of aluminum slag and uniaxial geogrids 7 Fly ash-granulated blast furnace slag: better replacement materials for subbase flexible pavement construction 8 High performance concrete using fly ash 9 Engineering green concrete for sustainable infrastructure 10 Behavior assessment of poor subgrade soil using natural coir geotextile under static and repeated load condition 11 Utilization of higher percentage of reclaimed asphalt pavement material in bituminous mixtures 12 Mineral wastes 13 Morphology and strength of concrete incorporating natural rubber latex and plastic fibers 14 Fiber-reinforced polymer nanocomposites for structural retrofitting applications 15 Biological materials for geotechnical engineering 16 A review on microstructural characteristics of bacterial concrete 17 Geoenvironmental evaluation on coal gangue: greener alternative to existing fill materials 18 Utilization of Sustainable Material: Ferrock for Stabilization of Subgrade Soil

Green Materials in Civil Engineering

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    £148.50

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    RRP £165.00 – you save £16.50 (10%)

    Order before 4pm today for delivery by Sat 13 Jun 2026.

    A Paperback by Toshiro Hata, Nagesh R. Iyer

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      Publisher: Elsevier Science
      Publication Date: 2/13/2024 12:00:00 AM
      ISBN13: 9780443191060, 978-0443191060
      ISBN10: 0443191069

      Description

      Book Synopsis


      Table of Contents
      1 A model to predict water retention characteristic curve of fly ash 2 Experimental study of the parameter for predicting the strength of geopolymer concretes based on ground granulated blast furnace slag and fly ash 3 Mitigating the environmental impacts of conventional concrete—a quantitative sustainable concrete approach 4 Consistency, setting, and strength properties of fly ash and slag based geopolymer mortar activated with water 5 Developing flyash and slagbased high-strength geopolymer concrete 6 Interfacial direct shear behavior of aluminum slag and uniaxial geogrids 7 Fly ash-granulated blast furnace slag: better replacement materials for subbase flexible pavement construction 8 High performance concrete using fly ash 9 Engineering green concrete for sustainable infrastructure 10 Behavior assessment of poor subgrade soil using natural coir geotextile under static and repeated load condition 11 Utilization of higher percentage of reclaimed asphalt pavement material in bituminous mixtures 12 Mineral wastes 13 Morphology and strength of concrete incorporating natural rubber latex and plastic fibers 14 Fiber-reinforced polymer nanocomposites for structural retrofitting applications 15 Biological materials for geotechnical engineering 16 A review on microstructural characteristics of bacterial concrete 17 Geoenvironmental evaluation on coal gangue: greener alternative to existing fill materials 18 Utilization of Sustainable Material: Ferrock for Stabilization of Subgrade Soil

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