Litcius/Paper detail

Recycled Components in 3D Concrete Printing Mixes: A Review

Marcin Maroszek, Magdalena Rudziewicz, Marek Hebda

2025Materials10 citationsDOIOpen Access PDF

Abstract

Rapid population growth and accelerating urbanization are intensifying the demand for construction materials, particularly concrete, which is predominantly produced with Portland cement and natural aggregates. This reliance imposes substantial environmental burdens through resource depletion and greenhouse gas emissions. Within the framework of sustainable construction, recycled aggregates and industrial by-products such as fly ash, slags, crushed glass, and other secondary raw materials have emerged as viable substitutes in concrete production. At the same time, three-dimensional concrete printing (3DCP) offers opportunities to optimize material use and minimize waste, yet it requires tailored mix designs with controlled rheological and mechanical performance. This review synthesizes current knowledge on the use of recycled construction and demolition waste, industrial by-products, and geopolymers in concrete mixtures for 3D printing applications. Particular attention is given to pozzolanic activity, particle size effects, mechanical strength, rheology, thermal conductivity, and fire resistance of recycled-based composites. The environmental assessment is considered through life-cycle analysis (LCA), emphasizing carbon footprint reduction strategies enabled by recycled constituents and low-clinker formulations. The analysis demonstrates that recycled-based 3D printable concretes can maintain or enhance structural performance while mix-level (cradle-to-gate, A1–A3) LCAs of printable mixes report CO2 reductions typically in the range of ~20–50% depending on clinker substitution and recycled constituents—with up to ~48% for fine recycled aggregates when accompanied by cement reduction and up to ~62% for mixes with recycled concrete powder, subject to preserved printability. This work highlights both opportunities and challenges, outlining pathways for advancing durable, energy-efficient, and environmentally responsible 3D-printed construction materials.

Topics & Concepts

Glass recyclingCarbon footprintWaste managementDemolitionPortland cementRaw materialPozzolanReuseKilnFly ashEnvironmental scienceMaterials scienceDemolition wasteCementPopulationClinker (cement)Slag (welding)Silica fumeLife-cycle assessmentGreenhouse gasSustainabilityAggregate (composite)Material efficiencyIndustrial wasteWork (physics)Environmental impact assessmentMechanical strengthResource consumptionResource depletionResource (disambiguation)Natural materialsBuilding materialMortarBottom ashHazardous wasteInnovations in Concrete and Construction MaterialsBIM and Construction IntegrationRecycled Aggregate Concrete Performance