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Advance Upcycling of By-products in Binder and Binder-Based Materials. Woodhead Publishing Series in Civil and Structural Engineering

  • Book

  • September 2023
  • Elsevier Science and Technology
  • ID: 5723950

Advance Upcycling of By-products in Binder and Binder-Based Materials focuses on research trends in binder and binder-based materials containing by-products. The book covers the properties of these materials, both physical and mechanical, and their durability, as well as their inner structure, both at the micro and nano-scale. The reuse of by-products within binder systems is also discussed as well as innovative approaches and advanced solutions for making cost-, ecology-, and environmental-friendly hydraulic binder and binder-based materials from the upcycling of by-products. The book also looks at additive manufacturing and explains the effects of by-products on the properties of binder and binder-based materials.

As a consequence of the popularity of additive manufacturing, various by-product materials, in terms of constructional application, are also identified. These include latent hydraulic supplements, activators of transport properties, and increase in inner strength and durability.� The book will be an essential reference resource for academic and industrial researchers, materials scientists and civil engineers and all those who are working in the development of 'greener' construction materials and utilization of waste and other fine by-products in the production of environmentally-friendly concrete.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

1. Using By-Products in binder and binder-based materials for protecting ecology, the environment, economy, and energy 2. Treated oil shale ash-substituted/blended-hydraulic binder and binder based-materials 3. Wheat straw ash-substituted-hydraulic binder and binder-based materials with admixture of water reducer (plasticizer) 4. Ecology-based green clay brick material including ground granulated blast furnace slag (ggbfs), pulverized fuel ash (pfa), paper sludge ash (psa), and agricultural-based waste (aw). 5. Class C fuel ash-substituted-hydraulic binder and binder- based materials fortified with high technology additive of graphite nano particle and admixture of superplasticizer 6. Class F fuel ash-substituted-hydraulic binder and binder-based materials fortified with high technology additive of graphite nano particle and admixture of superplasticizer 7. Oil shale ash-substituted-hydraulic binder and binder -based materials with additive of superplasticizer and roller compaction method 8. Natural pozzolana-substituted-hydraulic binder and binder-based materials with fine and coarse recycled aggregates and water reducer 9. Ground granulated blast furnace slag-substituted-hydraulic binder and binder-based materials with superplasticizer 10. New hydraulic binder and binder-based materials with burning pulverised coal ash, household waste, mediteran soil, and calcined clay waste 11. Alkali activated hydraulic binder geopolymer with ground granulated blast furnace slag (ggbfs) 12. Natural rubber latex-substituted-bitumen binder and bitumen binder -based materials 13. Calcined clay brick powder/marble powder-substituted-hydraulic binder and binder-based materials 14. Grey cement, white cement, gypsum, and lime modified with graphite nano particle 15. Calcined clay brick powder-substituted-hydraulic binder and binder-based materials

Authors

Mehmet Serkan Kirgiz Professor, Istanbul University-Cerrahpa?a, Avcilar, Turkey. Mehmet Serkan Kirgiz is currently a professor at the Trakya University, Turkey. He was previously a professor at the Gazi and Hacettepe Universities, both in Turkey. He has served as Vice Dean, Member of Faculty Management Board, Member of Department Management Board at these institutions. He has authored several peer-reviewed articles and has a national patent on cement manufacturing through the burning of marble powder and brick powder as farina. His major research interests include Ecology based Construction Materials, and Minerals of Raw and By-Product, and upcycling of by-product for sustainable development.