Recent Trends in the Sustainability Improvement and Use of Wastes in Cementitious Materials: Utilization of Wastes and Locally Sourced Materials: Woodhead Publishing Series in Civil and Structural Engineering
Editat de Adeyemi Adesinaen Limba Engleză Paperback – sep 2025
The book introduces and classifies sustainable initiatives while highlighting their current challenges and future developments, offering theoretical knowledge and a practical approach to how various types of locally generated wastes or materials can be utilized to improve the sustainability of cementitious materials.
Divided over seven key sections: Partial replacement of Portland cement as a binder; Total replacement of Portland cement as a binder; Use of waste products as aggregate; Use of waste products as reinforcement; Life cycle assessment of cementitious materials; Numerical analysis and prediction of sustainable cementitious materials; and Case studies of practical applications of sustainable cementitious materials the book will be a valuable reference resource for academic researchers, materials scientists and engineers, civil and structural engineers, R&D managers, and manufactures working in the development of construction materials, as well as practitioners working in environmental sustainability.
- Focuses on sustainable cementitious materials developed over the last 30 years
- Provides a comprehensive overview of alkali-activated materials
- Employs a global rather than regional approach
- Acknowledges the presence of life cycle assessment of sustainable cementitious materials
- Presents case studies on the practical applications of sustainable cementitious materials and discusses various ways to improve and assess the sustainability of these materials
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Specificații
ISBN-13: 9780443156700
ISBN-10: 0443156700
Pagini: 900
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Civil and Structural Engineering
ISBN-10: 0443156700
Pagini: 900
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Woodhead Publishing Series in Civil and Structural Engineering
Cuprins
Introduction Partial Replacement of Portland Cement
1. Use of Industrial Wastes
2. Use of Agricultural Wastes
3. Use of Locally Sourced Non-Waste Materials
Total Replacement of Portland Cement
4. Use of Industrial Wastes without Activator
5. Sustainable Alternatives to Portland Cement
6. Overview of Alkali-activated Materials
7. Use of Industrial Wastes as Precursor
8. Use of Agricultural Wastes as Precursors
9. Use of Natural Materials as Precursors
10. Use of Sustainable Activators in AAMs
11. Impact of Precursor and Activator type on
Sustainability Use of Waste Products as Aggregates
12. Use of Industrial Wastes
13. Use of Agricultural Wastes
14. Use of Construction and Demolition Wastes
15. Challenges with the use of waste products as aggregate
16. Performance Enhancement of Waste Products Used as Aggregate
17. Use of Locally Sourced Non-Waste Materials
Use of Waste Products as Reinforcement
18. Agricultural Wastes
19. Industrial Wastes
20. Natural Materials
21. Hybrid Wastes as Reinforcement
22. Improvement/Treatment of Wastes Used as Reinforcement
Life Cycle Assessment of Sustainable Cementitious Materials
23. Methods to evaluate the Life Cycle Assessment of Sustainable Cementitious Materials
24. Challenges with the Life Cycle Assessment of Sustainable Cementitious Materials
Numerical analysis and Prediction of Sustainable Cementitious Materials Properties
25. Application of Artificial Intelligence: Challenges and Opportunities
26. Numerical methods to Predict and Optimize Properties of Sustainable Cementitious Materials
27. Use of Artificial Intelligence to Predict Properties of Sustainable Cementitious Materials
28. Optimization and Modelling of Alkali-activated Materials
Case Studies and Practical Applications of Sustainable Cementitious Materials
29. Practical Applications of High-volume Industrial Wastes in Cementitious Materials
30. Global Examples of Use of Alkali-activated Materials
31. Long term Performance of Sustainable Cementitious Materials
1. Use of Industrial Wastes
2. Use of Agricultural Wastes
3. Use of Locally Sourced Non-Waste Materials
Total Replacement of Portland Cement
4. Use of Industrial Wastes without Activator
5. Sustainable Alternatives to Portland Cement
6. Overview of Alkali-activated Materials
7. Use of Industrial Wastes as Precursor
8. Use of Agricultural Wastes as Precursors
9. Use of Natural Materials as Precursors
10. Use of Sustainable Activators in AAMs
11. Impact of Precursor and Activator type on
Sustainability Use of Waste Products as Aggregates
12. Use of Industrial Wastes
13. Use of Agricultural Wastes
14. Use of Construction and Demolition Wastes
15. Challenges with the use of waste products as aggregate
16. Performance Enhancement of Waste Products Used as Aggregate
17. Use of Locally Sourced Non-Waste Materials
Use of Waste Products as Reinforcement
18. Agricultural Wastes
19. Industrial Wastes
20. Natural Materials
21. Hybrid Wastes as Reinforcement
22. Improvement/Treatment of Wastes Used as Reinforcement
Life Cycle Assessment of Sustainable Cementitious Materials
23. Methods to evaluate the Life Cycle Assessment of Sustainable Cementitious Materials
24. Challenges with the Life Cycle Assessment of Sustainable Cementitious Materials
Numerical analysis and Prediction of Sustainable Cementitious Materials Properties
25. Application of Artificial Intelligence: Challenges and Opportunities
26. Numerical methods to Predict and Optimize Properties of Sustainable Cementitious Materials
27. Use of Artificial Intelligence to Predict Properties of Sustainable Cementitious Materials
28. Optimization and Modelling of Alkali-activated Materials
Case Studies and Practical Applications of Sustainable Cementitious Materials
29. Practical Applications of High-volume Industrial Wastes in Cementitious Materials
30. Global Examples of Use of Alkali-activated Materials
31. Long term Performance of Sustainable Cementitious Materials