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Experimental Assessment on Printing Performance and Mechanical Properties of Underwater Self-Protecting 3D Printing Concrete (2025-02)

10.3151/jact.23.79

An Xuehui, Liang Qimin, Li Pengfei, You Wei, Yin Xiaohong
Journal Article - Journal of Advanced Concrete Technology, Vol. 23, Iss. 2, pp. 79-98

Abstract

3D printing concrete technology has gained significant attention for its mold-free construction and precision molding capabilities, yet its application in underwater environments remains underexplored. This study evaluates the feasibility of underwater self-protecting 3D printing concrete (USP-3DPC) and investigates the effect of varying underwater protective agent (UPA) ratios on key performance metrics, including underwater anti-dispersion, extrudability, and buildability. Compressive strength, splitting tensile strength, and porosity characteristics of USP-3DPC were also analyzed. The results indicate that incorporating UPA enhances underwater anti-dispersion, with an optimal ratio of 6% providing the best balance of extrudability and buildability. Although USP-3DPC specimens exhibit lower compressive and splitting tensile strengths than air-printed 3DPC, both demonstrate similar mechanical anisotropy. Analyses of porosity using mercury intrusion porosimetry reveal distinct differences in pore structure evolution and strength development between specimens printed in air and underwater environments. Strength comparisons at different curing ages confirm that USP-3DPC retains substantial mechanical integrity, supporting its potential for underwater construction applications.

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2 Citations

  1. Rodriguez Fabian, Vugteveen Caiden, Fross Xavier, Wei Hui et al. (2025-12)
    3D Printing of Cement-Based Materials Using Seawater for Simulated Marine Environments
  2. Abedi Mohammadmadhi, Waris Muhammad, Alawi Mubarak, Jabri Khalifa (2025-10)
    Next-Generation Net-Zero Composite for Underwater 3D Printing Construction:
    Hybrid Machine Learning Optimized LC3 with Recycled Rubber

BibTeX 
@article{an_lian_li_you.2025.EAoPPaMPoUSP3PC,
  author            = "Xuehui An and Qimin Liang and Pengfei Li and Wei You and Xiaohong Yin",
  title             = "Experimental Assessment on Printing Performance and Mechanical Properties of Underwater Self-Protecting 3D Printing Concrete",
  doi               = "10.3151/jact.23.79",
  year              = "2025",
  journal           = "Journal of Advanced Concrete Technology",
  volume            = "23",
  number            = "2",
  pages             = "79--98",
}
Formatted Citation

X. An, Q. Liang, P. Li, W. You and X. Yin, “Experimental Assessment on Printing Performance and Mechanical Properties of Underwater Self-Protecting 3D Printing Concrete”, Journal of Advanced Concrete Technology, vol. 23, no. 2, pp. 79–98, 2025, doi: 10.3151/jact.23.79.

An, Xuehui, Qimin Liang, Pengfei Li, Wei You, and Xiaohong Yin. “Experimental Assessment on Printing Performance and Mechanical Properties of Underwater Self-Protecting 3D Printing Concrete”. Journal of Advanced Concrete Technology 23, no. 2 (2025): 79–98. https://doi.org/10.3151/jact.23.79.