Skip to content

Determine the Effects of Pore Properties on the Mechanical Performances of 3D Concrete Printing Units with Experimental and Numerical Methods (2024-05)

10.1016/j.jobe.2024.109730

 Liu Zhenbang,  Li Mingyang,  Wong Teck,  Tan Ming
Journal Article - Journal of Building Engineering, No. 109730

Abstract

The anisotropic performances of 3D concrete printing (3DCP) units were usually considered correlated to interlayers. While recent studies proposed that the anisotropy might be caused by pores, the link between pore properties and mechanical performances remains at a qualitative level. In this paper, Computed Tomography (CT) scans and mechanical tests were first conducted to determine the pore properties and the mechanical performances of 3DCP units. Afterwards, MATLAB codes were adopted to convert CT scan images into finite element (FE) models containing pores and solid elements of concrete, and an inverse method was applied to obtain the constitutive model of concrete. Finally, CT-scan-based simulation was carried out, and the corresponding results were compared to experimental results to determine the quantitative link between the pore properties and the mechanical performances of 3DCP units. CT scan results showed that pores can be represented by a biconvex-lens shape without the obvious orientation along the printing direction, which differs from the observation in previous studies. Compared to the mechanical test results, CT-scan-based simulation results showed good agreement with a maximum error of 5.9%, which revealed its feasibility for evaluating the 3DCP unit mechanical performances. Because the model only contains a sole variable – pores, the consistency between simulation results and test results proves the quantitative link between the pore properties and the mechanical performances of 3DCP units.

32 References

  1. Alchaar Aktham, Tamimi Adil (2020-10)
    Mechanical Properties of 3D Printed Concrete in Hot Temperatures
  2. Babafemi Adewumi, Kolawole John, Miah Md, Paul Suvash et al. (2021-06)
    A Concise Review on Inter-Layer Bond Strength in 3D Concrete Printing
  3. Buswell Richard, Soar Rupert, Gibb Alistar, Thorpe Tony (2006-06)
    Freeform Construction:
    Mega-Scale Rapid Manufacturing for Construction
  4. Chen Yu, Jansen Koen, Zhang Hongzhi, Rodríguez Claudia et al. (2020-07)
    Effect of Printing-Parameters on Inter-Layer Bond Strength of 3D Printed Limestone-Calcined-Clay-Based Cementitious Materials:
    An Experimental and Numerical Study
  5. Geng Zifan, She Wei, Zuo Wenqiang, Lyu Kai et al. (2020-09)
    Layer-Interface Properties in 3D Printed Concrete:
    Dual Hierarchical Structure and Micromechanical Characterization
  6. Geng Zifan, Wu Peipei, Pan Hao, Zheng Qi et al. (2022-01)
    Robust Layer Interface in Cement Additive Manufacturing via Silicate-Penetration and Precipitation
  7. Heever Marchant, Bester Frederick, Kruger Jacques, Zijl Gideon (2021-07)
    Mechanical Characterisation for Numerical Simulation of Extrusion-Based 3D Concrete Printing
  8. 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
  9. Heras Murica Daniel, Genedy Moneeb, Taha Mahmoud (2020-09)
    Examining the Significance of Infill-Printing-Pattern on the Anisotropy of 3D Printed Concrete
  10. Hosseini Ehsan, Zakertabrizi Mohammad, Korayem Asghar, Xu Guanzhong (2019-03)
    A Novel Method to Enhance the Inter-Layer Bonding of 3D Printing Concrete:
    An Experimental and Computational Investigation
  11. Jiang Quan, Liu Qiang, Wu Si, Zheng Hong et al. (2022-06)
    Modification Effect of Nano-Silica and Polypropylene-Fiber for Extrusion-Based 3D Printing Concrete:
    Printability and Mechanical Anisotropy
  12. 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
  13. Kristombu Baduge Shanaka, Navaratnam Satheeskumar, Zidan Yousef, McCormack Tom et al. (2021-01)
    Improving Performance of Additive Manufactured Concrete:
    A Review on Material Mix-Design, Processing, Inter-Layer Bonding, and Reinforcing-Methods
  14. Kruger Jacques, Plessis Anton, Zijl Gideon (2020-12)
    An Investigation into the Porosity of Extrusion-Based 3D Printed Concrete
  15. Li Zhanzhao, Hojati Maryam, Wu Zhengyu, Piasente Jonathon et al. (2020-07)
    Fresh and Hardened Properties of Extrusion-Based 3D Printed Cementitious Materials:
    A Review
  16. Liu Zhenbang, Li Mingyang, Moo Guo, Kobayashi Hitoshi et al. (2023-05)
    Effect of Nano-Structured Silica-Additives on the Extrusion-Based 3D Concrete Printing Application
  17. Liu Zhenbang, Li Mingyang, Quah Tan, Wong Teck et al. (2023-09)
    Comprehensive Investigations on the Relationship Between the 3D Concrete Printing Failure Criterion and Properties of Fresh-State Cementitious Materials
  18. Liu Huawei, Liu Chao, Wu Yiwen, Bai Guoliang et al. (2022-06)
    Hardened Properties of 3D Printed Concrete with Recycled Coarse Aggregate
  19. Ma Guowei, Wang Li (2017-08)
    A Critical Review of Preparation Design and Workability Measurement of Concrete Material for Large-Scale 3D Printing
  20. Marchment Taylor, Sanjayan Jay, Xia Ming (2019-03)
    Method of Enhancing Inter-Layer Bond Strength in Construction-Scale 3D Printing with Mortar by Effective Bond Area Amplification
  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, Schutter Geert, Tittelboom Kim (2020-10)
    Extrusion-Based Concrete 3D Printing from a Material Perspective:
    A State of the Art Review
  23. Muthukrishnan Shravan, Ramakrishnan Sayanthan, Sanjayan Jay (2020-09)
    Effect of Microwave-Heating on Inter-Layer Bonding and Buildability of Geopolymer 3D Concrete Printing
  24. Perrot Arnaud, Rangeard Damien, Pierre Alexandre (2015-02)
    Structural Build-Up of Cement-Based Materials Used for 3D Printing-Extrusion-Techniques
  25. Şahin Hatice, Mardani Ali (2021-12)
    Assessment of Materials, Design Parameters and Some Properties of 3D Printing Concrete Mixtures:
    A State of the Art Review
  26. Sikora Paweł, Techman Mateusz, Federowicz Karol, Khayatt Ahmed et al. (2022-07)
    Insight into the Microstructural and Durability Characteristics of 3D Printed Concrete:
    Cast versus Printed Specimens
  27. Taleb Maria, Bulteel David, Betrancourt Damien, Roudet Francine et al. (2023-04)
    Interfacial Weakness Criterion by Indentation in 3D Printed Concrete
  28. Tay Yi, Ting Guan, Qian Ye, Panda Biranchi et al. (2018-07)
    Time-Gap-Effect on Bond Strength of 3D Printed Concrete
  29. Wang Li, Ma Guowei, Liu Tianhao, Buswell Richard et al. (2021-07)
    Inter-Layer Reinforcement of 3D Printed Concrete by the In-Process Deposition of U-Nails
  30. Wang Li, Xiao Wei, Wang Qiao, Jiang Hailong et al. (2022-07)
    Freeze-Thaw-Resistance of 3D Printed Composites with Desert Sand
  31. Weng Yiwei, Li Mingyang, Zhang Dong, Tan Ming et al. (2021-02)
    Investigation of Inter-Layer Adhesion of 3D Printable Cementitious Material from the Aspect of Printing-Process
  32. Wolfs Robert, Bos Freek, Salet Theo (2019-03)
    Hardened Properties of 3D Printed Concrete:
    The Influence of Process Parameters on Inter-Layer Adhesion

8 Citations

  1. Wang Hailong, Shi Yiqing, Sun Xiaoyan, Lin Xiqiang et al. (2025-12)
    Design, Multi-Scale Structural Analysis, and Construction of Modular Prefabricated 3D-Printed Concrete Residence
  2. Luo Xiaoyu, Zhao Yuqi, Yang Min, Yao Xiaofei et al. (2025-12)
    Introducing Cement Composite Agents During Printing Process to Enhance the 3D-Printed Concrete Interfaces Between Layers and Filaments
  3. Ding Shengxuan, Li Jiren, Wang Mingqiang (2025-07)
    Study on Mechanical Properties of Composite Basalt Fiber 3D-Printed Concrete Based on 3D Meso-Structure
  4. Zhang Bo, Corte Wouter, Ooms Ticho, Wan-Wendner Roman (2025-05)
    Mechanical Properties of Particle-Bed 3D Printed Concrete Infill Patterns
  5. Liu Zhenbang, Li Mingyang, Wang Xiangyu, Wong Teck et al. (2025-03)
    Investigate Mechanisms of Different Printing Parameters on the Mechanical Anisotropy of 3D Concrete Printing Elements by Using Computed Tomography Scan and Computational Fluid Dynamics Methods
  6. Jiang Youbau, Liu Yan, Zhang Zupan, Gao Pengxiang et al. (2025-03)
    Tensile Performance of Interlayer Interface of Interlocking 3D Printed Concrete with Single Toothlike Nozzle
  7. Wang Xiangyu, Du Liangfen, Liu Zhenbang, Li Mingyang et al. (2024-09)
    3D Cementitious Composites Printing with Pretreated Recycled Crumb-Rubber:
    Mechanical and Acoustic Insulation Properties
  8. Liu Zhenbang, Li Mingyang, Wang Xiangyu, Wang Sizhe et al. (2024-07)
    Axial Performances of the Steel-Rebar-Reinforced Column Confined by the Steel-Cable-Reinforced 3D Concrete Printing Permanent Formwork

BibTeX 
@article{liu_li_wong_tan.2024.DtEoPPotMPo3CPUwEaNM,
  author            = "Zhenbang Liu and Mingyang Li and Teck Neng Wong and Ming Jen Tan",
  title             = "Determine the Effects of Pore Properties on the Mechanical Performances of 3D Concrete Printing Units with Experimental and Numerical Methods",
  doi               = "10.1016/j.jobe.2024.109730",
  year              = "2024",
  journal           = "Journal of Building Engineering",
  pages             = "109730",
}
Formatted Citation

Z. Liu, M. Li, T. N. Wong and M. J. Tan, “Determine the Effects of Pore Properties on the Mechanical Performances of 3D Concrete Printing Units with Experimental and Numerical Methods”, Journal of Building Engineering, p. 109730, 2024, doi: 10.1016/j.jobe.2024.109730.

Liu, Zhenbang, Mingyang Li, Teck Neng Wong, and Ming Jen Tan. “Determine the Effects of Pore Properties on the Mechanical Performances of 3D Concrete Printing Units with Experimental and Numerical Methods”. Journal of Building Engineering, 2024, 109730. https://doi.org/10.1016/j.jobe.2024.109730.