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Robotic Knitcrete (2023-12)

Computational Design and Fabrication of a Pedestrian Bridge Using Robotic Shotcrete on a 3D Knitted Formwork

10.3389/fbuil.2023.1269000

 Rennen Philipp,  Gantner Stefan,  Dielemans Gido,  Bleker Lazlo,  Christidi Nikoletta,  Dörrie Robin, Hojjat Majid,  Mai (née Dressler) Inka,  Mawas Karam,  Lowke Dirk,  D'Acunto Pierluigi,  Dörfler Kathrin,  Hack Norman,  Popescu Mariana
Journal Article - Frontiers in Built Environment, Vol. 9

Abstract

The research project presented here aims to develop a design-informed manufacturing process for complex concrete shell structures in additive manufacturing and thus overcome limitations of traditional construction methods such as formwork- and labor intensity. To achieve this, an effort was made to merge the two technologies of CNC knitted stay-in-place formwork, known as KnitCrete, and robotically applied shotcrete, known as Shotcrete 3D Printing (SC3DP), and thereby reduce their respective limitations. The proposed workflow unites both digital fabrication methods into a seamless process that additionally integrates computational form finding, robotically applied fiber reinforcement, CNC post processing and geometric quality verification to ensure precision and efficiency. As part of a cross-university, research-based teaching format, this concept was implemented in the construction of a full-scale pedestrian bridge, which served as a demonstrator to evaluate the capabilities and limitations of the process. While overcoming some challenges during the process, the successful prove of concept shows a significant leap in digital fabrication of complex concrete geometry, reducing reliance on labor-intensive methods. The results shown in this paper make this fabrication approach a promising starting point for further developments in additive manufacturing in the construction sector.

12 References

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13 Citations

  1. Sawicki Bartłomiej, Chen Zhuo, Leusmann Thorsten, Kloft Harald (2026-01)
    Shotcrete 3D Printed Reinforced Concrete Beam:
    Design, Testing, and Comparison Against Conventional Cast Reinforced Concrete Solution
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    Investigation on Process Guidelines and Geometric Capabilities for Robust Shotcrete 3D Printing
  3. Mawas Karam, Maboudi Mehdi, Gerke Markus (2025-09)
    A Review on Geometry and Surface Inspection in 3D Concrete Printing
  4. Zhang Nan, Sanjayan Jay (2025-08)
    Concrete 3D Printing and Digital Fabrication Technologies for Bridge Construction
  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. Keune Anna, Simšič Živa, Kloft Harald, Dörfler Kathrin (2025-06)
    AMC Edu:
    Lab Design to Learn About Additive Manufacturing in Construction
  7. Gantner Stefan, Rennen Philipp, Amiri Fatemeh, Rothe Tom et al. (2025-05)
    Robotic Frame Winding:
    Prefabricated Fiber Structures as Formwork and Reinforcement for Digitally Fabricated Shell-Like Concrete Elements
  8. Dobrzanski James, Xu Jie, Bartek Rasti, Becker Daniel et al. (2025-04)
    From Digital Crafting to Digital Manufacturing:
    Automated Production Using Hybrid 3D Concrete Printing
  9. Liu Xiongfei, Guo Pei, Wang Haonan, Zhang Yi (2025-03)
    Spray-Based 3D Printed Cementitious Electromagnetic Wave Absorption Materials:
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    Alternative Printing-Methods for Cementitious Materials
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    Interaction of Reinforcement, Process, and Form in Digital Fabrication with Concrete
  12. Lowke Dirk, Anton Ana-Maria, Buswell Richard, Jenny Ercan et al. (2024-09)
    Digital Fabrication with Concrete Beyond Horizontal Planar Layers
  13. Rennen Philipp, Gantner Stefan, Rothe Tom, Baz Bilal et al. (2024-08)
    Structural Evaluation of Shotcrete 3D Printing and Robotic Fiber Winding for Thin-Shell Elements

BibTeX 
@article{renn_gant_diel_blek.2023.RK,
  author            = "Philipp Rennen and Stefan Gantner and Gido Dielemans and Lazlo Bleker and Nikoletta Christidi and Robin Dörrie and Majid Hojjat and Inka Mai (née Dressler) and Karam Mawas and Dirk Lowke and Pierluigi D'Acunto and Kathrin Dörfler and Norman Peter Hack and Mariana Popescu",
  title             = "Robotic Knitcrete: Computational Design and Fabrication of a Pedestrian Bridge Using Robotic Shotcrete on a 3D Knitted Formwork",
  doi               = "10.3389/fbuil.2023.1269000",
  year              = "2023",
  journal           = "Frontiers in Built Environment",
  volume            = "9",
}
Formatted Citation

P. Rennen, “Robotic Knitcrete: Computational Design and Fabrication of a Pedestrian Bridge Using Robotic Shotcrete on a 3D Knitted Formwork”, Frontiers in Built Environment, vol. 9, 2023, doi: 10.3389/fbuil.2023.1269000.

Rennen, Philipp, Stefan Gantner, Gido Dielemans, Lazlo Bleker, Nikoletta Christidi, Robin Dörrie, Majid Hojjat, et al.. “Robotic Knitcrete: Computational Design and Fabrication of a Pedestrian Bridge Using Robotic Shotcrete on a 3D Knitted Formwork”. Frontiers in Built Environment 9 (2023). https://doi.org/10.3389/fbuil.2023.1269000.