Development of Sustainable Low-Cement Construction 3D Printing Materials via Dense Particle Packing
Document Type
Conference Proceeding
Publication Date
1-1-2025
Abstract
This study seeks to enhance the sustainability and cost-effectiveness of construction 3D printing (C3DP) as a construction method. A key challenge in C3DP is the excessive Portland cement content (typically >600 kg/m3) of printing materials, increasing construction costs, and the resulting carbon footprint. To address this, an image-based automated gradation system was developed and tested to facilitate particle packing optimization. To design eco-friendly printing materials, large aggregates (up to 3/8 in) and quarry by-products were included as ingredients. The experimental results validated the packing density calculations, showing consistency with theoretical analysis based on the modified Andreasen and Andersen method, and the proposed novel image-based gradation technique. Low-cement (<400 kg/m3) printable materials were formulated and characterized in terms of shape stability and flexural strength. The findings demonstrate that the proposed measures substantially reduce the cement content requirement of cementitious printing materials, facilitating the development of sustainable and cost-effective solutions.
Publication Source (Journal or Book title)
Computing in Civil Engineering 2025 Resilient Robotic and Educational Systems Selected Papers from the ASCE International Conference on Computing in Civil Engineering 2025
First Page
198
Last Page
208
Recommended Citation
Paul, A., Manosalvas Holst, C., Berryman, C., Friedland, C., & Kazemian, A. (2025). Development of Sustainable Low-Cement Construction 3D Printing Materials via Dense Particle Packing. Computing in Civil Engineering 2025 Resilient Robotic and Educational Systems Selected Papers from the ASCE International Conference on Computing in Civil Engineering 2025, 198-208. https://doi.org/10.1061/9780784486443.023