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A 3D Printing Platform for Reinforced Printed-Sprayed Concrete Composites (2022-06)

10.1007/978-3-031-06116-5_37

 Reiter Lex,  Anton Ana-Maria,  Wangler Timothy,  Dillenburger Benjamin,  Flatt Robert
Contribution - Proceedings of the 3rd RILEM International Conference on Concrete and Digital Fabrication, pp. 249-254

Abstract

The issue ofreinforcement remains a difficult one for digital fabrication in concrete construction, with many solutions offered on how to best incorporate it with the technology in a practical manner. While certain technologies, such as digital casting systems, allow more seamless introduction of traditional steel reinforcement bars, the dominant technology of extrusion-based 3D printing still shows great limitations, with the most typical application being that of a lost formwork for traditionally cast concrete, or as unreinforced masonry. The use ofboth conventional and unconventional reinforcementmaterials, and their incorporation into processes, is a large and active area of research with the digital concrete community. In this work, we present a 3D printing platform and manufacturing concept in which a 3D printed form serves as a vertical substrate for a reinforcement, either textile or conventional steel. The structural concrete is then either applied by hand or sprayed around the reinforcement.

12 References

  1. Anton Ana-Maria, Reiter Lex, Wangler Timothy, Frangez Valens et al. (2020-12)
    A 3D Concrete Printing Prefabrication Platform for Bespoke Columns
  2. Bos Freek, Ahmed Zeeshan, Jutinov Evgeniy, Salet Theo (2017-11)
    Experimental Exploration of Metal-Cable as Reinforcement in 3D Printed Concrete
  3. Bos Freek, Menna Costantino, Pradena Mauricio, Kreiger Eric et al. (2022-03)
    The Realities of Additively Manufactured Concrete Structures in Practice
  4. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  5. Boscaro Federica, Quadranti Elia, Wangler Timothy, Mantellato Sara et al. (2022-02)
    Eco-Friendly, Set-on-Demand Digital Concrete
  6. Frangez Valens, Lloret-Fritschi Ena, Taha Nizar, Gramazio Fabio et al. (2021-10)
    Depth-Camera-Based Rebar Detection and Digital Reconstruction for Robotic Concrete Spraying
  7. 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
  8. Kreiger Eric, Kreiger Megan, Case Michael (2019-04)
    Development of the Construction Processes for Reinforced Additively Constructed Concrete
  9. Marchment Taylor, Sanjayan Jay (2019-10)
    Mesh Reinforcing Method for 3D Concrete Printing
  10. Reiter Lex, Wangler Timothy, Anton Ana-Maria, Flatt Robert (2020-05)
    Setting-on-Demand for Digital Concrete:
    Principles, Measurements, Chemistry, Validation
  11. Schutter Geert, Lesage Karel, Mechtcherine Viktor, Nerella Venkatesh et al. (2018-08)
    Vision of 3D Printing with Concrete:
    Technical, Economic and Environmental Potentials
  12. Wangler Timothy, Roussel Nicolas, Bos Freek, Salet Theo et al. (2019-06)
    Digital Concrete:
    A Review

5 Citations

  1. Licciardello Lucia, Soto Alejandro, Kaufmann Walter, Metelli Giovanni (2025-01)
    Determining the Strength of 3D Printed Concrete with the Modified Slant-Shear-Test
  2. Anton Ana-Maria, Skevaki Eleni, Bischof Patrick, Reiter Lex et al. (2024-11)
    Column-Slab Interfaces for 3D Concrete Printing:
    Design, Fabrication and Assembly Strategies
  3. Gebhard Lukas, Mata-Falcón Jaime, Ammann Rebecca, Pressmair Nadine et al. (2024-08)
    Enhancing Structural Efficiency with Digital Concrete:
    Principles, Opportunities and Case Studies
  4. Pott Ursula, Jakob Cordula, Dorn Tobias, Stephan Dietmar (2023-07)
    Investigation of a Shotcrete-Accelerator for Targeted Control of Material-Properties for 3D Concrete Printing Injection-Method
  5. Gebhard Lukas, Mata-Falcón Jaime, Iqbal Arsalan, Kaufmann Walter (2023-01)
    Structural Behavior of Post-Installed Reinforcement for 3D Concrete Printed Shells:
    A Case Study on Water Tanks

BibTeX 
@inproceedings{reit_anto_wang_dill.2022.A3PPfRPSCC,
  author            = "Lex Reiter and Ana-Maria Anton and Timothy Paul Wangler and Benjamin Dillenburger and Robert Johann Flatt",
  title             = "A 3D Printing Platform for Reinforced Printed-Sprayed Concrete Composites",
  doi               = "10.1007/978-3-031-06116-5_37",
  year              = "2022",
  volume            = "37",
  pages             = "249--254",
  booktitle         = "Proceedings of the 3rd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2022",
  editor            = "Richard A. Buswell and Ana Blanco and Sergio Cavalaro and Peter Kinnell",
}
Formatted Citation

L. Reiter, A.-M. Anton, T. P. Wangler, B. Dillenburger and R. J. Flatt, “A 3D Printing Platform for Reinforced Printed-Sprayed Concrete Composites”, in Proceedings of the 3rd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2022, 2022, vol. 37, pp. 249–254. doi: 10.1007/978-3-031-06116-5_37.

Reiter, Lex, Ana-Maria Anton, Timothy Paul Wangler, Benjamin Dillenburger, and Robert Johann Flatt. “A 3D Printing Platform for Reinforced Printed-Sprayed Concrete Composites”. In Proceedings of the 3rd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2022, edited by Richard A. Buswell, Ana Blanco, Sergio Cavalaro, and Peter Kinnell, 37:249–54, 2022. https://doi.org/10.1007/978-3-031-06116-5_37.