Waste and By-Products in Cement-Based Materials: Innovative Sustainable Materials for a Circular Economy covers various recycled materials, by-products and wastes that are suitable for the manufacture of materials within the spectrum of so-called cement-based materials (CBM). Sections cover wastes for replacement of aggregates in CBM, focus on the application of wastes for the replacement of clinker and mineral additions in the manufacture of binders, discuss the optimization process surrounding the manufacture of recycled concrete and mortars, multi-recycling, advanced radiological studies, optimization of self-compacting concrete, rheology properties, corrosion prevention, and more.
Final sections includes a review of real-scale applications that have been made in recent years of cement-based materials in roads, railway superstructures, buildings and civil works, among others, as well as a proposal of new regulations to promote the use of waste in the manufacture of CBM.
- Favors the institution of the circular economy in the construction industry by eliminating the barriers that currently prevent industrial waste from being valorized by its inclusion in CBM design
- Features an in-depth exploration of the strengths and weaknesses of new raw materials and their application to CBMs
- Features real-scale applications that have been made in recent years of cement-based materials in roads, railway superstructures, buildings and civil works, among others
- Presents current, state-of-the-art, and future-prospects for the use of industrial waste in CBMs
SECTION 1 WASTE FOR AGGREGATES IN CEMENT-BASED MATERIALS 1. Modelling the interfacial transition zone (ITZ) between recycled aggregates and industrial waste in cementitious matrix 2. Waste for aggregates in high and ultra high performance concrete. 3. Use of coal bottom ash and other waste as fine aggregates in lightweight cement based materials 4. Residual biomass as aggregates applied in concrete manufacturing
SECTION 2 WASTE FOR BINDERS AND ADDITIONS 5. Application of artificial gypsum and phosphogypsum for the improvement of eco-efficient cements 6. Effect of waste as supplementary cementitious materials on the transport properties of concrete 7. Industrial waste from biomass-fired electric power plants as alternative pozzolanic materials 8. Inorganic binders from petrochemical industry waste: The case of the fluid catalytic cracking catalyst residue (FCC) 9. Utilisation of metallurgical wastes as raw materials for manufacturing alkali-activated cements
SECTION 3 OPTIMIZATION OF CONCRETE AND MORTAR FOR A CIRCULAR ECONOMY 10. Multirecycled aggregates and waste in concrete and mortar production 11. Radiological shielding concrete using steel industry by-products 12. Towards more sustainable Self-Consolidating Concrete (SCC) using alkaline-activated and supplementary cementitious materials. 13. Optimization of self-compacting recycled concrete manufactured with waste and by-products 14. Rheological behaviour of recycled aggregate concrete 15. Active-state corrosion in recycled aggregate concrete
SECTION 4 ENVIRONMENTAL IMPLICATIONS OF THE USE OF WASTE IN CEMENT-BASED MATERIALS 16. Analysis of Impact Allocation for Use of Waste in Cement-Based Materials 17. Leaching Assessment Methodologies and Regulations for Evaluating Use of Secondary and Recycled Materials in Concrete and Mortars 18. Methodology of the evaluation of life in cycle in research on cement-based materials
SECTION 5 REAL SCALE APPLICATIONS OF ECO-EFFICIENT CEMENT-BASED MATERIALS 19. Application of Waste for cement-treated materials and concrete in road pavements 20. Alternative secondary raw materials for road construction based on pulp and paper industry waste 21. Ladle furnace slags in construction and civil works: a promising reality 22. Real-scale applications of waste in CBM in buildings 23. Fatigue on recycled aggregate Concrete for railway superstructure applications 24. Normative proposal to promote the application of waste and by-products in cement-based materials
Jorge de Brito is a full professor of civil engineering in the Department of Civil Engineering, Architecture and Georesources, Instituto Superior Técnico, University of
Lisbon. His main research topic is sustainable construction, particularly on the use of recycled aggregates in concrete and mortars. He has participated in 20 competitively financed research projects (four as the principal investigator) and supervised 20 PhD and 150 MSc theses. He is the author of 3 previous books, 20 book chapters, 250 journal and 450 conference papers. He is the editor-in-chief of the Journal of Building Engineering, an associate editor of the European Journal of Environmental and Civil Engineering, a member of the editorial boards of 15 other international journals and a member of the CIB, FIB, RILEM, IABMAS and IABSE organisations.
Carlos Thomas is an Associate Professor at the Materials Science and Engineering Laboratory in the Civil Engineering School of the University of Cantabria, Spain. He received his International PhD with cum Laude and Extraordinary Doctorate Award in 2013. His research activity has focused on the evaluation of construction, demolition and industry wastes for the manufacture of recycled mortars and concrete. In the last five years, he has participated as Principal Investigator in 5 R&D projects and as a researcher in another 10 R&D projects, with both public and private funding, related to recycled materials. He is the author of 20 JCR papers, one of them certified as one of the 25 most downloaded in ScienceDirect, and more than 80 congress communications and conferences. He has undertaken research stays in France, Germany, Brazil, and Portugal, and he is one of the promoters of the "Spanish Recycled Concrete Network".
César Medina is a reader of the Department of Construction of Civil Engineering, University of Extremadura, Spain. He earned his PhD. from the University of León in 2011. He has authored over 40 research articles in peer-reviewed journals, two books and nine book chapters. He is reviewer for more than 15 JCR-listed journals, including Cement and Concrete Composites, Construction and Building Materials and Journal of Cleaner Production. He sits on RILEM technical committees RAC and CCC and a number of standardisation committees under the auspices of Spain's standardisation agency, UNE. He is Secretary to the University of Extremadura's Research Institute for Sustainable Development (INTERRA) and convenor for the same university's Construction materials, soil and environmental engineering (MATERIA) research group. He has been visiting scholar with the University of the West of Scotland, Heriot-Watt University and Ghent University. He served as principal investigator for a research project on industrial waste valorisation in the design of eco-concretes supported with European, national and regional funding.
Francisco Agrela is an Assistant Professor of Civil Engineering at the University of Cordoba, Spain. He received his PhD in 2003 from the University of Cordoba. He is the author of over 40 research articles in peer-reviewed journals. He has published a chapter in the Handbook of Recycled Concrete and Demolition Waste (Woodhead). He collaborates with several journals as reviewer, including Construction and Building Materials (Elsevier), Waste Management (Elsevier), Materials and Design (Elsevier), Resources, Conservation and Recycling (Elsevier). He belongs to the RAC committee of RILEM and AFN-20 of TRB. He has visited and collaborated with several Universities such as the TU Delft, University Polytechnic of Hong Kong, University of Granada, and IST of Lisbon.