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Design-Optimization for 3D Concrete Printing (2020-07)

Improving Structural and Thermal Performances

10.1007/978-3-030-49916-7_72

 Vantyghem Gieljan,  Steeman Marijke,  de Corte Wouter,  Boel Veerle
Contribution - Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication, pp. 720-727

Abstract

This paper focuses on optimizing the shape of prefabricated building components that are produced using 3D concrete printing (3DCP) techniques. The proposed method is to improve the structural and thermal properties using heuristic optimization algorithms, as such that they meet the minimum standards determined by building design codes. First, a case study is constructed that is based upon an existing module design found in literature, and a single segment from this design is isolated. The influence of the overall shape and the curvature of the infill line is investigated, and the structural performance is optimized for the hardened material state. In a second attempt, the heat transfer through the segment is also minimized. In parallel to the design’s optimization process, of course, the manufacturing challenges and process limitation need to be considered as well. Therefore, the influence of the infill line on the buildability of a 3DCP element is also demonstrated in a fresh material state (i.e. during printing). For this, the complete printing process of a wall segment is simulated and allows for the prediction of printing failure, elastic buckling and plastic collapse. Based on the outcome of the FEM-based calculations, a design could then be marked fit for printing or allow for further optimization.

1 References

  1. Vantyghem Gieljan, Corte Wouter, Steeman Marijke, Boel Veerle (2019-07)
    Density-Based Topology-Optimization for 3D Printable Building Structures

12 Citations

  1. Najm-Eddine Asmae, Abouelmajd Mohamed, Najm-Eddine Youssef, Erritali Ilham et al. (2025-11)
    Topological Optimization in 3D Concrete Printing Structures:
    A Review
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    Effect of Orthotropy and Printing Patterns on the Bending Performance of 3D Printed Concrete Grid Components
  3. Olivo Nik, Piccioni Valeria, Milano Francesco, Gramazio Fabio et al. (2025-02)
    Thermal Enhancement of Hollow-Core 3DP Through Nozzle Design Customization
  4. Capêto Ana, Jesus Manuel, Uribe Braian, Guimarães Ana et al. (2024-05)
    Building a Greener Future:
    Advancing Concrete Production Sustainability and the Thermal Properties of 3D Printed Mortars
  5. Perez-Rivera Anthony, Kreiger Eric, Stidwell Samuel, Stynoski Peter et al. (2023-10)
    Finite-Element Modeling of Reinforced Additively Constructed Concrete Structures
  6. Cuevas Villalobos Karla, Weinhold Joachim, Stephan Dietmar, Kim Ji-Su (2023-09)
    Effect of Printing-Patterns on Pore-Related Microstructural Characteristics and Properties of Materials for 3D Concrete Printing Using In-Situ and Ex-Situ Imaging-Techniques
  7. Liu Dawei, Zhang Zhigang, Zhang Xiaoyue, Chen Zhaohui (2023-09)
    3D Printing Concrete Structures:
    State of the Art, Challenges, and Opportunities
  8. Arrêteau Manon, Fabien Aurélie, Haddaji Badreddine, Chateigner Daniel et al. (2023-07)
    Review of Advances in 3D Printing Technology of Cementitious Materials:
    Key Printing Parameters and Properties Characterization
  9. Aramburu Amaia, Calderon-Uriszar-Aldaca Iñigo, Puente Iñigo (2023-02)
    Parametric Modelling of 3D Printed Concrete Segmented Beams with Rebars Under Bending Moments
  10. Kamel Ehsan, Kazemian Ali (2022-11)
    BIM-Integrated Thermal Analysis and Building Energy Modeling in 3D Printed Residential Buildings
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    Additive Manufacturing of Sustainable Construction Materials and Form-Finding Structures:
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  12. Dielemans Gido, Briels David, Jaugstetter Fabian, Henke Klaudius et al. (2021-04)
    Additive Manufacturing of Thermally Enhanced Lightweight Concrete Wall Elements with Closed Cellular Structures

BibTeX 
@inproceedings{vant_stee_cort_boel.2020.DOf3CP,
  author            = "Gieljan Vantyghem and Marijke Steeman and Wouter de Corte and Veerle Boel",
  title             = "Design-Optimization for 3D Concrete Printing: Improving Structural and Thermal Performances",
  doi               = "10.1007/978-3-030-49916-7_72",
  year              = "2020",
  volume            = "28",
  pages             = "720--727",
  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

G. Vantyghem, M. Steeman, W. de Corte and V. Boel, “Design-Optimization for 3D Concrete Printing: Improving Structural and Thermal Performances”, in Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020, 2020, vol. 28, pp. 720–727. doi: 10.1007/978-3-030-49916-7_72.

Vantyghem, Gieljan, Marijke Steeman, Wouter de Corte, and Veerle Boel. “Design-Optimization for 3D Concrete Printing: Improving Structural and Thermal Performances”. 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, 28:720–27, 2020. https://doi.org/10.1007/978-3-030-49916-7_72.