Low-Carbon Valorization of Construction Spoil into High-Value Recycled Aggregates for Geopolymer Concrete
Lei Zhang, Kai Wang, Yuting Gao, Xiaoxiong Zha, Yu Lei

TL;DR
This study shows how construction waste can be turned into high-quality materials for eco-friendly concrete, improving strength and reducing environmental impact.
Contribution
A novel method for producing high-value recycled aggregates from construction spoil for use in geopolymer concrete is presented.
Findings
Crushed aggregates outperformed disc-pelletized aggregates in compressive strength due to better morphology and density.
Construction spoil-derived aggregates achieved compressive strengths suitable for structural geopolymer concrete.
The approach reduces reliance on natural aggregates and lowers the carbon footprint of construction.
Abstract
This study investigates the production of recycled aggregates (RAs) derived from construction spoil (CS) and their influence on the mechanical properties of geopolymer concrete. Two manufacturing routes, disc pelletization and crushing granulation, were employed to produce CS-based RAs. The resulting RAs were characterized in terms of particle size distribution and geopolymer compressive strength development. Geopolymer concretes incorporating disc-pelletized and crushed aggregates achieved 7-day compressive strengths of 31.0–32.5 MPa and 37.9–38.4 MPa, 21-day compressive strengths of 31.6–36.5 MPa and 40.8–41.5 MPa, 28-day compressive strengths of 36.9–37.1 MPa and 42.3–43.5 MPa, respectively. These results confirm the technical feasibility of using CS as a high-value RA resource in structural geopolymer concrete. At the same time, the approach offers environmental and economic…
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Taxonomy
TopicsConcrete and Cement Materials Research · Recycled Aggregate Concrete Performance · Tailings Management and Properties
