Skip to content

Injection 3D Concrete Printing (I3DCP) (2020-03)

Basic Principles and Case Studies

10.3390/ma13051093

 Hack Norman,  Mai (née Dressler) Inka,  Brohmann Leon,  Gantner Stefan,  Lowke Dirk,  Kloft Harald
Journal Article - Materials, Vol. 13, Iss. 5

Abstract

Today, the majority of research in 3D concrete printing focuses on one of the three methods: firstly, material extrusion; secondly, particle-bed binding; and thirdly, material jetting. Common to all these technologies is that the material is applied in horizontal layers. In this paper, a novel 3D concrete printing technology is presented which challenges this principle: the so-called Injection 3D Concrete Printing (I3DCP) technology is based on the concept that a fluid material (M1) is robotically injected into a material (M2) with specific rheological properties, causing material M1 to maintain a stable position within material M2. Different to the layered deposition of horizontal strands, intricate concrete structures can be created through printing spatially free trajectories, that are unconstrained by gravitational forces during printing. In this paper, three versions of this method were investigated, described, and evaluated for their potential in construction: A) injecting a fine grain concrete into a non-hardening suspension; B) injecting a non-hardening suspension into a fine grain concrete; and C) injecting a fine grain concrete with specific properties into a fine grain concrete with different properties. In an interdisciplinary research approach, various material combinations were developed and validated through physical experiments. For each of the three versions, first architectural applications were developed and functional prototypes were fabricated. These initial results confirmed both the technological and economic feasibility of the I3DCP process, and demonstrate the potential to further expand the scope of this novel technology.

12 References

  1. Asprone Domenico, Menna Costantino, Bos Freek, Salet Theo et al. (2018-06)
    Rethinking Reinforcement for Digital Fabrication with Concrete
  2. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  3. Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
    3D Printing Using Concrete-Extrusion:
    A Roadmap for Research
  4. Hack Norman, Lauer Willi (2014-04)
    Mesh Mould:
    Robotically Fabricated Spatial Meshes as Reinforced Concrete Formwork
  5. Khoshnevis Behrokh, Hwang Dooil, Yao Ke, Yeh Zhenghao (2006-05)
    Mega-Scale Fabrication by Contour Crafting
  6. Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
    Developments in Construction-Scale Additive Manufacturing Processes
  7. Lowke Dirk, Dini Enrico, Perrot Arnaud, Weger Daniel et al. (2018-07)
    Particle-Bed 3D Printing in Concrete Construction:
    Possibilities and Challenges
  8. 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
  9. Mechtcherine Viktor, Nerella Venkatesh (2018-04)
    Incorporating Reinforcement in 3D-Printing with Concrete
  10. Meibodi Mania, Jipa Mihail-Andrei, Giesecke Rena, Shammas Demetris et al. (2018-10)
    Smart Slab:
    Computational Design and Digital Fabrication of a Lightweight Concrete Slab
  11. Neudecker Stefan, Bruns Christopher, Gerbers Roman, Heyn Jakob et al. (2016-05)
    A New Robotic Spray Technology for Generative Manufacturing of Complex Concrete-Structures without Formwork
  12. Valente Marco, Sibai Abbas, Sambucci Matteo (2019-09)
    Extrusion-Based Additive Manufacturing of Concrete Products:
    Revolutionizing and Remodeling the Construction Industry

38 Citations

  1. Jacobi Ando, Zöllner Jan-Phillip, Hack Norman, Mai (née Dressler) Inka (2025-12)
    Encasement of Pre-Placed Reinforcement in Injection 3D Concrete Printing:
    The Effect of Rheology and Process Parameters
  2. Abbas Yassir, Alsaif Abdulaziz (2025-11)
    Explainable Data-Driven Modeling for Optimized Mix Design of 3D-Printed Concrete:
    Interpreting Nonlinear Synergies Among Binder Components and Proportions
  3. Meier Niklas, Herding Friedrich, Zetzener Harald, Mai (née Dressler) Inka et al. (2025-11)
    Surface Modification of Bulk Material for Particle Bed 3D Concrete Printing:
    Effect on Wettability, Porosity, and Mechanical Properties
  4. Mawas Karam, Maboudi Mehdi, Gerke Markus (2025-09)
    A Review on Geometry and Surface Inspection in 3D Concrete Printing
  5. Dietrich Sebastian, Schneider Philip, Richter Christiane, Najian Asl Reza et al. (2025-08)
    Multi-Fidelity Structural Design for 3D Concrete Printing with Selective Paste Intrusion
  6. Xiao Yinan, Vandenberg Aileen, Lowke Dirk, Mai (née Dressler) Inka et al. (2025-08)
    Automated Robotic Assembly Planning of Space Trusses for Injection 3D Concrete Printing
  7. Lin Wenyu, Wang Li, Li Zhijian, Bai Gang et al. (2025-06)
    Multi-Scale Fabrication and Challenges in 3D Printing of Special -Shaped Concrete Structures
  8. Mohamed Osama, Mishra Anamika, Isam Fida (2025-05)
    An Overview of 3D Printed Concrete for Building Structures:
    Material Properties, Sustainability, Future Opportunities, and Challenges
  9. Xiao Yinan, Hack Norman, Kloft Harald, Lowke Dirk et al. (2025-03)
    Constraint-Based Form-Finding of Space Trusses for Injection 3D Concrete Printing Through Vector-Based Graphic Statics
  10. Caron Jean-François, Ducoulombier Nicolas, Demont Léo (2025-01)
    Reinforcement of Printed Structures
  11. Pierre Alexandre, Perrot Arnaud (2025-01)
    Alternative Printing-Methods for Cementitious Materials
  12. Li Chao, Petzold Frank (2025-01)
    Ontology-Driven Mixture-of-Domain Documentation:
    A Backbone Approach Enabling Question Answering for Additive Construction
  13. Herding Friedrich, Lowke Dirk (2024-09)
    Improving the Dimensional Accuracy in Selective Cement-Activation by w/c-Ratio Gradation
  14. Lowke Dirk, Anton Ana-Maria, Buswell Richard, Jenny Ercan et al. (2024-09)
    Digital Fabrication with Concrete Beyond Horizontal Planar Layers
  15. Lo Tzu-Hsien, Liu Bosheng (2024-08)
    Overview of Injection Liquid Printing with Dredged-Based Material for Concrete Formwork
  16. Antorveza Paez Karen, Ling Andrea, Mahamaliyev Nijat, Bauer Georg et al. (2024-07)
    Digital Fabrication of Biologically Cemented Spatial Structures
  17. Salaimanimagudam M., Jayaprakash Jaganathan (2024-07)
    Selection of Digital Fabrication Technique in the Construction Industry:
    A Multi-Criteria Decision-Making Approach
  18. Kim Il (2024-04)
    3D Concrete Printing Frame Structure in Granular Medium
  19. Lo Tzu-Hsien, Liu Bosheng (2024-04)
    Extruding Dredged-Based Material for Concrete Formwork through Rapid-Liquid-Printing
  20. Zaid Osama, Ouni Mohamed (2024-04)
    Advancements in 3D Printing of Cementitious Materials:
    A Review of Mineral Additives, Properties, and Systematic Developments
  21. Auer Daniel, Bos Freek, Olabi Mohammad, Fischer Oliver (2023-10)
    Fiber-Reinforcement of 3D Printed Concrete by Material-Extrusion-Tool-Paths Aligned to Principal Stress-Trajectories
  22. Oosthuizen Jandré, Babafemi Adewumi, Walls Richard (2023-10)
    3D Printed Recycled Plastic Eco-Aggregate (Resin8) Concrete
  23. Ghasemi Alireza, Naser Mohannad (2023-07)
    Tailoring 3D Printed Concrete Through Explainable Artificial Intelligence
  24. Placzek Gerrit, Schwerdtner Patrick (2023-07)
    Concrete Additive Manufacturing in Construction:
    Integration Based on Component-Related Fabrication-Strategies
  25. Tu Haidong, Wei Zhenyun, Bahrami Alireza, Kahla Nabil et al. (2023-06)
    Recent Advancements and Future Trends in 3D Printing Concrete Using Waste-Materials
  26. Zhou Yiyi, Jiang Dan, Sharma Rahul, Xie Yi et al. (2022-11)
    Enhancement of 3D Printed Cementitious Composite by Short Fibers:
    A Review
  27. Xiao Yinan, Khader Noor, Vandenberg Aileen, Lowke Dirk et al. (2022-06)
    Injection 3D Concrete Printing (I3DCP) Combined with Vector-Based 3D Graphic Statics
  28. Adams Thomas, Heuer Christoph, Brell-Cokcan Sigrid (2022-03)
    Dynamic 3D Print-Head for Spatial Strand-Extrusion of Fiber-Reinforced Concrete:
    Requirements, Development and Application
  29. Shakor Pshtiwan, Chu Shaohua, Puzatova (nee Sharanova) Anastasiia, Dini Enrico (2022-01)
    Review of Binder-Jetting 3D Printing in the Construction Industry
  30. Izadgoshasb Hamed, Kandiri Amirreza, Shakor Pshtiwan, Laghi Vittoria et al. (2021-11)
    Predicting Compressive Strength of 3D Printed Mortar in Structural Members Using Machine Learning
  31. Mai (née Dressler) Inka, Brohmann Leon, Freund Niklas, Gantner Stefan et al. (2021-10)
    Large Particle 3D Concrete Printing:
    A Green and Viable Solution
  32. Nair Sooraj, Tripathi Avinaya, Neithalath Narayanan (2021-09)
    Examining Layer-Height Effects on the Flexural and Fracture Response of Plain and Fiber-Reinforced 3D Printed Beams
  33. Lowke Dirk, Vandenberg Aileen, Pierre Alexandre, Thomas Amaury et al. (2021-07)
    Injection 3D Concrete Printing in a Carrier Liquid:
    Underlying Physics and Applications to Lightweight Space Frame Structures
  34. Hoffmann Marcin, Żarkiewicz Krzysztof, Zieliński Adam, Skibicki Szymon et al. (2021-05)
    Foundation Piles:
    A New Feature for Concrete 3D Printers
  35. Benamara Abdeslam, Pierre Alexandre, Kaci Abdelhak, Mélinge Yannick (2021-05)
    Digital Printing of Mortar in Carrier-Liquid:
    Comparison of Approaches to Predict Print Stability
  36. Kruger Jacques, Zijl Gideon (2020-10)
    A Compendious Review on Lack-of-Fusion in Digital Concrete Fabrication
  37. Benamara Abdeslam, Pierre Alexandre, Kaci Abdelhak, Mélinge Yannick (2020-07)
    3D Printing of a Cement-Based Mortar in a Complex Fluid Suspension:
    Analytical Modeling and Experimental Tests
  38. Fratello Virginia, Rael Ronald (2020-05)
    Innovating Materials for Large-Scale Additive Manufacturing:
    Salt, Soil, Cement and Chardonnay

BibTeX 
@article{hack_mai_broh_gant.2020.I3CPI,
  author            = "Norman Peter Hack and Inka Mai (née Dressler) and Leon Brohmann and Stefan Gantner and Dirk Lowke and Harald Kloft",
  title             = "Injection 3D Concrete Printing (I3DCP): Basic Principles and Case Studies",
  doi               = "10.3390/ma13051093",
  year              = "2020",
  journal           = "Materials",
  volume            = "13",
  number            = "5",
}
Formatted Citation

N. P. Hack, I. M. (née Dressler), L. Brohmann, S. Gantner, D. Lowke and H. Kloft, “Injection 3D Concrete Printing (I3DCP): Basic Principles and Case Studies”, Materials, vol. 13, no. 5, 2020, doi: 10.3390/ma13051093.

Hack, Norman Peter, Inka Mai (née Dressler), Leon Brohmann, Stefan Gantner, Dirk Lowke, and Harald Kloft. “Injection 3D Concrete Printing (I3DCP): Basic Principles and Case Studies”. Materials 13, no. 5 (2020). https://doi.org/10.3390/ma13051093.