The Path to Green Concrete will enlighten the scientific community on recent developments in this field. Within this volume, world-renowned experts summarize recent research findings covering key topics such as: alkali-activated materials using aluminosilicate waste precursors; use of novel cost-effective and eco-efficient supplementary cementitious materials; state of the art characterization techniques and assessment methodologies; advances on the use of biomass ashes, steel slags and waste glass; the role of carbon capture in the production of concrete and mortar; development of…mehr
The Path to Green Concrete will enlighten the scientific community on recent developments in this field. Within this volume, world-renowned experts summarize recent research findings covering key topics such as: alkali-activated materials using aluminosilicate waste precursors; use of novel cost-effective and eco-efficient supplementary cementitious materials; state of the art characterization techniques and assessment methodologies; advances on the use of biomass ashes, steel slags and waste glass; the role of carbon capture in the production of concrete and mortar; development of eco-efficient composites for specialized applications; recycling of the fine fraction of construction and demolition wastes; and sustainable self-healing concrete. This book will be a valuable reference resource for academic and industrial researchers, civil and structural engineers, manufacturers, and other construction professionals working in the development of sustainable construction materials.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Section 1 - Developments on green supplementary cementitious materials 1. Reactive magnesia Miguel Bravo and Bruna A. Silva 2. Stainless Steel Slag Francisco Agrela Sainz and Julia Rosales 3. Alkali activation of slag Francisca Puertas 4. New and More Sustainable Paths for the Development of Alkali Activated Cements Nuno Cristelo, Jhonathan Rivera and Inés Garcia-Lodeiro 5. Alkali-activated aluminosilicate industrial wastes as alternative binders in precast paving blocks Rui Vasco Silva 6. Granulation of incinerated municipal solid waste bottom ash with one-part alkali activation technology Priyadharshini Perumal, Suman kumar Adhikary and Mirja Illikainen Section 2 - Construction, demolition and industrial wastes as aggregates in cementitious composites 7. 3D printing concrete with by-products Belén Gonzalez-Fonteboa 8. Steel slag aggregate in concrete Flora Faleschini, Mariano Angelo Zanini and Daniel Trento 9. Microtomography of eco-efficient concrete Carlos Thomas 10. Mining waste as aggregate for concrete Lina M. Trujillo López, Jesús Suárez-González, Carlos López-Colina, Ismael García, Miguel Serrano and Fernando Lopez Gayarre Section 3 - Advances on eco-efficient concrete 11. Ultra-high-performance concrete Caijun Shi and Xuanhan Zhang 12. Self-healing concrete Gurkan Yildirim and Behlul Furkan Ozel 13. Cellular concrete Maria Victoria Borrachero Sr. 14. Graphene in eco-efficient concrete Manuel Cruz 15. Nanoindentation of concrete with sustainable supplementary cementitious materials Wengui Li, Zhiyu Luo, Yipu Guo, Xuqun Lin, Xiaonan Wang, Hanbing Zhao and Xuanrui Zhang 16. Pervious concrete with alternative materials Krishna Prapoorna Biligiri and Avishreshth Singh
Section 1 - Developments on green supplementary cementitious materials 1. Reactive magnesia Miguel Bravo and Bruna A. Silva 2. Stainless Steel Slag Francisco Agrela Sainz and Julia Rosales 3. Alkali activation of slag Francisca Puertas 4. New and More Sustainable Paths for the Development of Alkali Activated Cements Nuno Cristelo, Jhonathan Rivera and Inés Garcia-Lodeiro 5. Alkali-activated aluminosilicate industrial wastes as alternative binders in precast paving blocks Rui Vasco Silva 6. Granulation of incinerated municipal solid waste bottom ash with one-part alkali activation technology Priyadharshini Perumal, Suman kumar Adhikary and Mirja Illikainen Section 2 - Construction, demolition and industrial wastes as aggregates in cementitious composites 7. 3D printing concrete with by-products Belén Gonzalez-Fonteboa 8. Steel slag aggregate in concrete Flora Faleschini, Mariano Angelo Zanini and Daniel Trento 9. Microtomography of eco-efficient concrete Carlos Thomas 10. Mining waste as aggregate for concrete Lina M. Trujillo López, Jesús Suárez-González, Carlos López-Colina, Ismael García, Miguel Serrano and Fernando Lopez Gayarre Section 3 - Advances on eco-efficient concrete 11. Ultra-high-performance concrete Caijun Shi and Xuanhan Zhang 12. Self-healing concrete Gurkan Yildirim and Behlul Furkan Ozel 13. Cellular concrete Maria Victoria Borrachero Sr. 14. Graphene in eco-efficient concrete Manuel Cruz 15. Nanoindentation of concrete with sustainable supplementary cementitious materials Wengui Li, Zhiyu Luo, Yipu Guo, Xuqun Lin, Xiaonan Wang, Hanbing Zhao and Xuanrui Zhang 16. Pervious concrete with alternative materials Krishna Prapoorna Biligiri and Avishreshth Singh
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