Recent Developments and Innovations in the Sustainable Production of Concrete

<p>Section A - Sources, materials, and waste products in concrete production<br> <br>1. Valorization of industrial and agro-waste materials for production of green construction materials<br>2. A comprehensive study of concrete performance by using bacterial calcite precipitation<br>3. Self-compacting recycled aggregate concrete: future scope and challenges<br>4. Recent advances in microbiology in producing self-healing concrete<br>5 Geopolymer concrete: an innovative approach for sustainable infrastructure and advancement in circular economy<br>6. Ultrahigh-performance concrete: a new additive material in construction industry<br>7. Silica fume as sustainable supplementary cementitious materials in concrete<br>8. Cement replacement using pozzolanic materials: a sustainable approach<br>9. Mechanical and durability properties of bacteria-based admixed self-healing concrete under different exposures<br> <br>Section B - Economy, energy, and environment aspects in concrete production<br> <br>10. Eco-efficient pavement construction materials<br>11. Crumb rubber as an eco-friendly aggregate in sustainable concrete: properties, integration, and future perspectives<br>12. Sustainability measurement of developed concrete by incorporating solid waste<br>13. Economic feasibility of a large-scale adoption of silica fume in construction<br>14. Circular economy in the construction sector: current trends and future outlook<br>15. Use of stabilized waste soil in the construction of sustainable concrete<br>16. Recycled aggregate concrete: a sustainable approach to concrete production<br>17. Circular economy in the construction sector in relation to brownfield redevelopment of a mining site: a case study of a mine in Ebonyi State, Nigeria<br>18. An experimental approach toward sustainable and eco-friendly sandcrete block using sawdust as a partial replacement for cement<br>19. Paving the future: breakthroughs in sustainable approaches to pavement<br>20. Strength behavior of ferrocement panel under the two-point loading system: a case study<br>21. Case studies of successful circular economy initiatives in the construction sector<br> <br>Section C - Machine learning approach in concrete construction<br> <br>22. Machine learning in concrete construction: applications, challenges, and future aspects<br>23. Digital fabrication processes for cementitious materials using three-dimensional printing technologies<br>24. Internet of things in sustainable concrete production<br>25. Advancements in optimizing the quality assurance and crack detection by leveraging the application of emerging artificial intelligence (AI) trends for enrichment of civil infrastructure—a recapitulation</p>