Skip to content

Effects of Time-Varying Liquid Bridge Forces on Rheological Properties, and Resulting Extrudability and Constructability of Three-Dimensional Printing Mortar (2023-11)

10.1007/s11709-023-0999-1

 Zhi Peng,  Wu Yuching,  Rabczuk Timon
Journal Article - Frontiers of Structural and Civil Engineering

Abstract

Extrudability and constructability are two important, yet contradictory issues pertaining to the construction of three-dimensional (3D) printing concrete. Extrudability is easily achieved when 3D printing cement mortar has a high water content and low cohesion, but the printed structure is easily collapsible. However, a 3D printing cement mortar with a low water content and high cohesion has a relatively stable printed structure although the cement mortar might not be extrudable. This study proposes a particle-based method to simulate 3D printing mortar extrusion and construction as an overall planning tool for building design. First, a discrete element model with time-varying liquid bridge forces is developed to investigate the microscopic effects of these forces on global rheological properties. Next, a series of numerical simulations relevant to 3D printable mortar extrudability and constructability are carried out. The study demonstrates that the effects of time-varying liquid bridge forces on rheological properties and the resulting extrudability and constructability of 3D printing mortar are considerable. Furthermore, an optimized region that satisfies both the extrusion and construction requirements is provided for 3D printing industry as a reference.

24 References

  1. Asprone Domenico, Menna Costantino, Bos Freek, Salet Theo et al. (2018-06)
    Rethinking Reinforcement for Digital Fabrication with Concrete
  2. Borg Costanzi Christopher, Ahmed Zeeshan, Schipper Roel, Bos Freek et al. (2018-07)
    3D Printing Concrete on Temporary Surfaces:
    The Design and Fabrication of a Concrete Shell Structure
  3. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  4. Bosscher Paul, Williams Robert, Bryson L., Castro-Lacouture Daniel (2007-04)
    Cable-Suspended Robotic Contour Crafting System
  5. Cesaretti Giovanni, Dini Enrico, Kestelier Xavier, Colla Valentina et al. (2013-08)
    Building Components for an Outpost on the Lunar Soil by Means of a Novel 3D Printing Technology
  6. Jayathilakage Roshan, Rajeev Pathmanathan, Sanjayan Jay (2021-05)
    Extrusion Rheometer for 3D Concrete Printing
  7. Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
    Cementitious Materials for Construction-Scale 3D Printing:
    Laboratory Testing of Fresh Printing Mixture
  8. Khoshnevis Behrokh (2003-11)
    Automated Construction by Contour Crafting:
    Related Robotics and Information Technologies
  9. Khoshnevis Behrokh, Russell Richard, Kwon Hongkyu, Bukkapatnam Satish (2001-09)
    Crafting Large Prototypes
  10. Khoshnevis Behrokh, Yuan Xiao, Zahiri Behnam, Zhang Jing et al. (2016-08)
    Construction by Contour Crafting Using Sulfur-Concrete with Planetary Applications
  11. Kruger Jacques, Cho Seung, Zeranka Stephan, Vintila Cristian et al. (2019-12)
    3D Concrete Printer Parameter Optimization for High-Rate Digital Construction Avoiding Plastic Collapse
  12. Kruger Jacques, Zeranka Stephan, Zijl Gideon (2019-07)
    An Ab-Inito Approach for Thixotropy Characterisation of Nano-Particle-Infused 3D Printable Concrete
  13. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Mix-Design and Fresh Properties for High-Performance Printing Concrete
  14. Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
    Developments in Construction-Scale Additive Manufacturing Processes
  15. Mechtcherine Viktor, Grafe Jasmin, Nerella Venkatesh, Spaniol Erik et al. (2018-05)
    3D Printed Steel-Reinforcement for Digital Concrete Construction:
    Manufacture, Mechanical Properties and Bond Behavior
  16. Nematollahi Behzad, Vijay Praful, Sanjayan Jay, Nazari Ali et al. (2018-11)
    Effect of Polypropylene Fiber Addition on Properties of Geopolymers Made by 3D Printing for Digital Construction
  17. Perrot Arnaud, Rangeard Damien, Pierre Alexandre (2015-02)
    Structural Build-Up of Cement-Based Materials Used for 3D Printing-Extrusion-Techniques
  18. Salet Theo, Ahmed Zeeshan, Bos Freek, Laagland Hans (2018-05)
    Design of a 3D Printed Concrete Bridge by Testing
  19. Suiker Akke, Wolfs Robert, Lucas Sandra, Salet Theo (2020-06)
    Elastic Buckling and Plastic Collapse During 3D Concrete Printing
  20. Tay Yi, Panda Biranchi, Paul Suvash, Mohamed Nisar et al. (2017-05)
    3D Printing Trends in Building and Construction Industry:
    A Review
  21. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  22. Yang Pu, Nair Sooraj, Neithalath Narayanan (2018-09)
    Discrete Element Simulations of Rheological Response of Cementitious Binders as Applied to 3D Printing
  23. Zareiyan Babak, Khoshnevis Behrokh (2017-06)
    Inter-Layer Adhesion and Strength of Structures in Contour Crafting:
    Effects of Aggregate-Size, Extrusion-Rate, and Layer-Thickness
  24. Zhi Peng, Wu Yuching, Yang Qianfan, Kong Xiangrui et al. (2022-03)
    Effect of Spiral Blade Geometry on 3D Printed Concrete Rheological Properties and Extrudability Using Discrete Event Modeling

2 Citations

  1. Chen Qinbin, Barbat Gabriel, Cervera Miguel (2025-06)
    Finite Element Buildability Analysis of 3D Printed Concrete Including Failure by Elastic Buckling and Plastic Flow
  2. Chen Wei, Guan Yongying, Zhu Binrong, Han Jinsheng et al. (2025-01)
    Influence of Extruded Strip-Shape and Dimension on the Mechanical Properties and Pore-Characteristics of 3D Printed Geopolymer Concrete

BibTeX 
@article{zhi_wu_rabc.2023.EoTVLBFoRPaREaCoTDPM,
  author            = "Peng Zhi and Yuching Wu and Timon Rabczuk",
  title             = "Effects of Time-Varying Liquid Bridge Forces on Rheological Properties, and Resulting Extrudability and Constructability of Three-Dimensional Printing Mortar",
  doi               = "10.1007/s11709-023-0999-1",
  year              = "2023",
  journal           = "Frontiers of Structural and Civil Engineering",
}
Formatted Citation

P. Zhi, Y. Wu and T. Rabczuk, “Effects of Time-Varying Liquid Bridge Forces on Rheological Properties, and Resulting Extrudability and Constructability of Three-Dimensional Printing Mortar”, Frontiers of Structural and Civil Engineering, 2023, doi: 10.1007/s11709-023-0999-1.

Zhi, Peng, Yuching Wu, and Timon Rabczuk. “Effects of Time-Varying Liquid Bridge Forces on Rheological Properties, and Resulting Extrudability and Constructability of Three-Dimensional Printing Mortar”. Frontiers of Structural and Civil Engineering, 2023. https://doi.org/10.1007/s11709-023-0999-1.