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Spray-Based 3D Printed Tunnel Slag Concrete (2025-02)

Evaluation for Printability and Mechanical Performance

10.1016/j.conbuildmat.2025.140392

 Liu Xiongfei, Li Chuang, Guo Pei,  Wang Li,  Chen Jinnan,  Ma Guowei, Wang Qiao
Journal Article - Construction and Building Materials, Vol. 467, No. 140392

Abstract

A spray-based 3D (S-3D) printed tunnel slag concrete material is developed in this paper. The effects of tunnel slag as fine aggregate, with replacement rates of 0 %, 60 %, 80 %, 100 %, and 120 %, on the workability, printability, and mechanical properties of the S-3D printed concrete are systematically investigated. The hydration process of the printed concrete is further analyzed by SEM, XRD, and X-CT. The test results demonstrate that the fine particles and stone powder in the tunnel slag, along with its rough texture, significantly optimize the rheological property of the concrete. The concrete with 100 % tunnel slag exhibits optimal thixotropy, printing accuracy, and buildability, along with enhanced mechanical properties. The compressive, flexural, and interlayer splitting strengths of the S-3D printed concrete with 100 % tunnel slag at 28 d increased by 8.84 %, 7.69 %, and 8.72 %, respectively, compared to the printed concrete without tunnel slag, achieving maximum strengths of 77.6 MPa, 14.0 MPa, and 2.12 MPa. The rough surface of the tunnel slag also facilitates stronger interface bonding with the cementitious materials. Additionally, combined with the effect of S-3D printing process, the S-3D printed concrete with 100 % tunnel slag shows a minimum porosity, decreased by 41.30 % compared to the printed concrete without tunnel slag. A tunnel lining structure model is successfully printed using the optimal 100 % tunnel slag concrete, demonstrating a novel approach to the resource utilization of tunnel slag and its application in intelligent lining construction.

28 References

  1. Bai Gang, Wang Li, Ma Guowei, Sanjayan Jay et al. (2021-03)
    3D Printing Eco-Friendly Concrete Containing Under-Utilised and Waste Solids as Aggregates
  2. Bos Freek, Kruger Jacques, Lucas Sandra, Zijl Gideon (2021-04)
    Juxtaposing Fresh Material-Characterisation-Methods for Buildability-Assessment of 3D Printable Cementitious Mortars
  3. Freund Niklas, Mai (née Dressler) Inka, Lowke Dirk (2020-07)
    Studying the Bond Properties of Vertical Integrated Short Reinforcement in the Shotcrete 3D Printing Process
  4. Ghaffar Seyed, Mullett Paul (2018-09)
    Commentary:
    3D Printing Set to Transform the Construction Industry
  5. Hack Norman, Kloft Harald (2020-07)
    Shotcrete 3D Printing Technology for the Fabrication of Slender Fully Reinforced Freeform Concrete Elements with High Surface Quality:
    A Real-Scale Demonstrator
  6. Heever Marchant, Plessis Anton, Kruger Jacques, Zijl Gideon (2022-01)
    Evaluating the Effects of Porosity on the Mechanical Properties of Extrusion-Based 3D Printed Concrete
  7. Jayathilakage Roshan, Rajeev Pathmanathan, Sanjayan Jay (2021-05)
    Extrusion Rheometer for 3D Concrete Printing
  8. Kloft Harald, Krauss Hans-Werner, Hack Norman, Herrmann Eric et al. (2020-05)
    Influence of Process Parameters on the Inter-Layer Bond Strength of Concrete Elements Additive Manufactured by Shotcrete 3D Printing
  9. Kruger Jacques, Plessis Anton, Zijl Gideon (2020-12)
    An Investigation into the Porosity of Extrusion-Based 3D Printed Concrete
  10. Lindemann Hendrik, Gerbers Roman, Ibrahim Serhat, Dietrich Franz et al. (2018-09)
    Development of a Shotcrete 3D Printing (SC3DP) Technology for Additive Manufacturing of Reinforced Freeform Concrete Structures
  11. Liu Xiongfei, Cai Huachong, Ma Guowei, Hou Guanyu (2024-01)
    Spray-Based 3D Concrete Printing-Parameter Design-Model:
    Actionable Insight for High Printing Quality
  12. Liu Xiongfei, Cai Huachong, Sun Yuhang, Wang Li et al. (2024-08)
    Spray-Based 3D Printed Foam-Concrete:
    Cooperative Optimization for Lightweight and High-Strength Performance
  13. Liu Xiongfei, Li Qi, Wang Fang, Ma Guowei (2022-07)
    Systematic Approach for Printability Evaluation and Mechanical Property Optimization of Spray-Based 3D Printed Mortar
  14. Liu Huawei, Liu Chao, Wu Yiwen, Bai Guoliang et al. (2022-09)
    3D Printing Concrete with Recycled Coarse Aggregates:
    The Influence of Pore-Structure on Inter-Layer Adhesion
  15. Lu Bing, Li Ziyang, Li Mingyang, Feng Jianhang et al. (2023-11)
    Substitution of Cement by Marine-Clay in Spray-Based 3D Concrete Printing
  16. Lu Bing, Li Mingyang, Wong Teck, Qian Shunzhi (2021-02)
    Effect of Printing Parameters on Material-Distribution in Spray-Based 3D Concrete Printing (S-3DCP)
  17. Lu Bing, Li Mingyang, Wong Teck, Qian Shunzhi (2022-09)
    Spray-Based 3D Concrete Printing with Calcium and Polymeric Additives:
    A Feasibility Study
  18. Lu Bing, Qian Ye, Li Mingyang, Weng Yiwei et al. (2019-04)
    Designing Spray-Based 3D Printable Cementitious Materials with Fly-Ash-Cenosphere and Air-Entraining Agent
  19. Lu Bing, Zhao Huanyu, Li Mingyang, Wong Teck et al. (2023-10)
    MgO/Fluid Catalytic Cracking Ash-Blends for 3D Printing on Vertical Surfaces
  20. Mai (née Dressler) Inka, Freund Niklas, Lowke Dirk (2020-01)
    The Effect of Accelerator Dosage on Fresh Concrete Properties and on Inter-Layer Strength in Shotcrete 3D Printing
  21. Mechtcherine Viktor, Bos Freek, Perrot Arnaud, Silva Wilson et al. (2020-03)
    Extrusion-Based Additive Manufacturing with Cement-Based Materials:
    Production Steps, Processes, and Their Underlying Physics
  22. Mohan Manu, Rahul Attupurathu, Tittelboom Kim, Schutter Geert (2020-10)
    Rheological and Pumping Behavior of 3D Printable Cementitious Materials with Varying Aggregate Content
  23. Roussel Nicolas (2018-05)
    Rheological Requirements for Printable Concretes
  24. Sun Junbo, Aslani Farhad, Lu Jenny, Wang Lining et al. (2021-06)
    Fiber-Reinforced Lightweight Engineered Cementitious Composites for 3D Concrete Printing
  25. Wolfs Robert, Bos Freek, Salet Theo (2019-03)
    Hardened Properties of 3D Printed Concrete:
    The Influence of Process Parameters on Inter-Layer Adhesion
  26. Xiao Jianzhuang, Hou Shaodan, Duan Zhenhua, Zou Shuai (2023-01)
    Rheology of 3D Printable Concrete Prepared by Secondary Mixing of Ready-Mix Concrete
  27. Zhang Jingchuan, Wang Jialiang, Dong Sufen, Yu Xun et al. (2019-07)
    A Review of the Current Progress and Application of 3D Printed Concrete
  28. Zhou Wen, Zhang Yamei, Ma Lei, Li Victor (2022-04)
    Influence of Printing Parameters on 3D Printing Engineered Cementitious Composites

6 Citations

  1. Sun Yuhang, Yang Xiaojie, Liu Xiongfei, Ma Guowei et al. (2025-12)
    Coordinated Spray-Based 3D Printing of Reinforced Concrete Structure:
    A Multi-Angle Strategy for Blockage Mitigation
  2. Sun Yuhang, Li Chuang, Liu Xiongfei, Wang Li et al. (2025-11)
    Enhancing Sulfate Resistance of Spray-Based 3D Printed Recycled Tunnel Slag Concrete Through Polypropylene Fiber Optimization
  3. Liu Xiongfei, Wang Haonan, Chen Jinnan, Sun Yuhang et al. (2025-11)
    Fiber Orientation Control in Spray-Based 3D Printed Steel Fiber Reinforced Concrete
  4. Yang Shuai, Li Fei, Lu Ya, Xu Xiaoming et al. (2025-08)
    Study of the Printing Characteristics of a 3D Printing Solution for the Purpose of Process Optimization
  5. Lin Xing-Tao, Xu Shuhao, Chen Xiangsheng (2025-08)
    Optimization of Building Structures Based on Additive Manufacturing:
    A Review
  6. Mukhtar Faisal (2025-05)
    3D-Printed Concrete Fracture:
    Effects of Cohesive Laws, Mixes, and Print Parameters in 3D EXtended FEM

BibTeX 
@article{liu_li_guo_wang.2025.SB3PTSC,
  author            = "Xiongfei Liu and Chuang Li and Pei Guo and Li Wang and Jinnan Chen and Guowei Ma and Qiao Wang",
  title             = "Spray-Based 3D Printed Tunnel Slag Concrete: Evaluation for Printability and Mechanical Performance",
  doi               = "10.1016/j.conbuildmat.2025.140392",
  year              = "2025",
  journal           = "Construction and Building Materials",
  volume            = "467",
  pages             = "140392",
}
Formatted Citation

X. Liu, “Spray-Based 3D Printed Tunnel Slag Concrete: Evaluation for Printability and Mechanical Performance”, Construction and Building Materials, vol. 467, p. 140392, 2025, doi: 10.1016/j.conbuildmat.2025.140392.

Liu, Xiongfei, Chuang Li, Pei Guo, Li Wang, Jinnan Chen, Guowei Ma, and Qiao Wang. “Spray-Based 3D Printed Tunnel Slag Concrete: Evaluation for Printability and Mechanical Performance”. Construction and Building Materials 467 (2025): 140392. https://doi.org/10.1016/j.conbuildmat.2025.140392.