Automated Toolpath Design of 3D Concrete Printing Structural Components (2025-02)¶
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Journal Article - Additive Manufacturing, No. 104662
Abstract
3D concrete printing (3DCP) structural components for construction assemblies are known for reduced material use and enhanced efficiency and design freedom. This article investigates the limitations in the geometrical and toolpath design of 3DCP structural components and presents an automated and comprehensive approach to their toolpath design and optimization. It exploits hierarchical geometric data structures and graph algorithms to achieve the following features: (1) By analyzing the overhang of toolpaths, the method offers quantitative criteria for determining the buildability of the components and predicting failure, thus assisting design decisions. (2) It provides toolpath offsetting and filleting methods that can enhance the dimensional accuracy of the print concerning layer line textures and overfills. (3) For branching and porous geometries, the method creates as-continuous-as-possible toolpaths with minimal stop-starts based on their topologies, thus reducing seam defects. (4) It converts the toolpath into efficient visualization meshes representing layer line textures and toolpath meshes compatible with finite elements analysis. The proposed method is implemented as a plug-in software within the environment of Grasshopper® for Rhino® to facilitate designers and engineers working with 3DCP. The effectiveness and versatility of the tool are demonstrated through the toolpath design and printing of four sets of examples. The tool reduces the number of toolpaths by 90% for a typical 80 mm nozzle and takes 0.21 s per meter of toolpath to slice, analyze overhang, generate continuous printing toolpaths, and visualize the print.
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2 Citations
BibTeX
@article{zhi_chai_teng_akba.2025.ATDo3CPSC,
author = "Yefan Zhi and Hua Chai and Teng Teng and Masoud Akbarzadeh",
title = "Automated Toolpath Design of 3D Concrete Printing Structural Components",
doi = "10.1016/j.addma.2025.104662",
year = "2025",
journal = "Additive Manufacturing",
pages = "104662",
}
Formatted Citation
Y. Zhi, H. Chai, T. Teng and M. Akbarzadeh, “Automated Toolpath Design of 3D Concrete Printing Structural Components”, Additive Manufacturing, p. 104662, 2025, doi: 10.1016/j.addma.2025.104662.
Zhi, Yefan, Hua Chai, Teng Teng, and Masoud Akbarzadeh. “Automated Toolpath Design of 3D Concrete Printing Structural Components”. Additive Manufacturing, 2025, 104662. https://doi.org/10.1016/j.addma.2025.104662.