Crumb Rubber as an Eco-Friendly Aggregate in Sustainable Concrete: Properties, Integration and Future Perspectives

This chapter delves into the pivotal shift within the global construction industry towards sustainable alternatives, specifically focusing on the incorporation of crumb rubber—a recycled tire-derived aggregate—as an eco-friendly option in green concrete production. The urgency to address environmental concerns linked to tire disposal underscores the significance of exploring innovative materials. The exploration spans the entire process, beginning with the careful selection and preparation of crumb rubber, extending to crucial considerations in mix design, and detailing the specific mixing procedures involved. This comprehensive approach ensures a thorough understanding of the integration process, laying the foundation for sustainable concrete production. The chapter does not merely stop at the procedural aspects but extends into a detailed analysis of the effects of crumb rubber on concrete properties. This includes a nuanced examination of workability, mechanical attributes, and the enduring durability of the resultant concrete. Advanced analytical techniques are employed to investigate microstructural changes within the concrete matrix due to the incorporation of crumb rubber, offering a deeper insight into the material's behaviour. Beyond the current state of research, the chapter takes a forward-looking stance by discussing the challenges encountered in this domain and proposing future research directions. These insights provide valuable guidance for researchers, engineers, and practitioners, equipping them with the knowledge needed to navigate the evolving landscape of sustainable construction. In essence, this chapter serves as a knowledge hub, offering a wealth of information tailored for those dedicated to advancing concrete sustainability. Its emphasis on eco-friendly aggregates, particularly crumb rubber, positions it as a vital resource for stakeholders seeking to enhance both the environmental friendliness and performance of concrete in construction practices.