Litcius/Paper detail

Advancing 3D Printable Concrete with Nanoclays: Rheological and Mechanical Insights for Construction Applications

Wen Si, Liam Carr, Asad Zia, Mehran Khan, Ciarán McNally

2025Journal of Composites Science14 citationsDOIOpen Access PDF

Abstract

Three-dimensional concrete printing (3DCP) is an emerging technology that improves design flexibility and material efficiency in construction. However, widespread adoption of 3DCP requires overcoming key material challenges. These include controlling rheology for pumpability and buildability and achieving sufficient mechanical strength. This paper provides a comprehensive review of the application of nanoclays (NCs) as a key admixture to address these challenges. The effects of three primary NCs (attapulgite (ATT), bentonite (BEN), and sepiolite (SEP)) on the fresh- and hardened-state properties of printable mortars are systematically analyzed. This review summarize findings on how NCs enhanced thixotropy, yield stress, and cohesion, which are critical for shape retention and the successful printing of multilayered structures. Quantitative analysis reveals that optimized dosages of NCs can increase compressive strength by up to 34% and flexural strength by up to 20%. For enhancing rheology and printability, a dosage of approximately 0.5% by binder weight is often suggested for ATT and SEP. In contrast, BEN can be used at higher replacement levels (up to 20%) to also function as a supplementary cementitious material (SCM), though this significantly impacts workability. This review consolidates the current knowledge to provide a clear framework for selecting appropriate NCs and dosages to develop high-performance, reliable, and sustainable materials for 3DCP applications.

Topics & Concepts

RheologyMaterials science3D printingComposite materialInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesConcrete and Cement Materials Research