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Control of Strand Properties Produced with Shotcrete 3D Printing by Accelerator Dosage and Process Parameters (2020-07)

10.1007/978-3-030-49916-7_5

 Mai (née Dressler) Inka,  Freund Niklas,  Lowke Dirk
Contribution - Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication, pp. 42-52

Abstract

Shotcrete 3D Printing (SC3DP) has recently evolved as a large-scale additive manufacturing technique. The major advantage of this technique is the high manufacturing speed for creating large-sized monolithic structures. However, to control this technique properly, the combined effects of process parameters and rheological properties of the concrete need to be fully understood. Therefore, the effect of accelerator dosage (0%, 2%, 4%, 6%) on the material’s yield stress is quantified with a penetrometer up to 90 min after deposition. The vertical deformation of strands is also found to correlate with yield stress. Moreover, the resulting geometry of the strands is analyzed. Here, an increase in strand height and a decrease in strand width is determined with increasing accelerator dosage. Among other factors, this is deduced to the opening angle when material leaves the nozzle. To compensate unwanted changes in geometry due to accelerator, process parameters to modify the geometry are studied as well. Therefore, the effect of traverse speed, nozzle-to-strand-distance and volume air flow on the geometry is quantified. Finally, the possibilities to use the findings of the effect of accelerator dosage and process parameters during printing process purposefully are discussed.

10 References

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14 Citations

  1. Dörrie Robin, Kloft Harald, Sawicki Bartłomiej, Freund Niklas et al. (2024-09)
    Automated Reinforcement Integration in Shotcrete 3D Printing Through Green State Milling
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    An Approach to the Targeted Control of Material-Properties
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    Robotic Knitcrete:
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    Shotcrete 3D Printing:
    Effect of Material‐Process-Interaction on the Global and Local Material Density
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    Shotcrete 3D Printing:
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    The Effects of Nozzle-Diameter and Length on the Resulting Strand Properties for Shotcrete 3D Printing
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    Modelling the Influence of Material and Process Parameters on Shotcrete 3D Printed Strands:
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    Systematic Approach for Printability Evaluation and Mechanical Property Optimization of Spray-Based 3D Printed Mortar
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    Influence of Material and Process Parameters on Hardened State Properties of Shotcrete 3D Printed Elements
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BibTeX 
@inproceedings{mai_freu_lowk.2020.CoSPPwS3PbADaPP,
  author            = "Inka Mai (née Dressler) and Niklas Freund and Dirk Lowke",
  title             = "Control of Strand Properties Produced with Shotcrete 3D Printing by Accelerator Dosage and Process Parameters",
  doi               = "10.1007/978-3-030-49916-7_5",
  year              = "2020",
  volume            = "28",
  pages             = "42--52",
  booktitle         = "Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020",
  editor            = "Freek Paul Bos and Sandra Simaria de Oliveira Lucas and Robert Johannes Maria Wolfs and Theo A. M. Salet",
}
Formatted Citation

I. M. (née Dressler), N. Freund and D. Lowke, “Control of Strand Properties Produced with Shotcrete 3D Printing by Accelerator Dosage and Process Parameters”, in Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020, 2020, vol. 28, pp. 42–52. doi: 10.1007/978-3-030-49916-7_5.

Dressler), Inka Mai (née, Niklas Freund, and Dirk Lowke. “Control of Strand Properties Produced with Shotcrete 3D Printing by Accelerator Dosage and Process Parameters”. In Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020, edited by Freek Paul Bos, Sandra Simaria de Oliveira Lucas, Robert Johannes Maria Wolfs, and Theo A. M. Salet, 28:42–52, 2020. https://doi.org/10.1007/978-3-030-49916-7_5.