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The New Boundaries of 3D-Printed Clay-Bricks-Design (2022-01)

Printability of Complex Internal Geometries

10.3390/su14020598

 Sangiorgio Valentino,  Parisi Fabio, Fieni Francesco,  Parisi Nicola
Journal Article - Sustainability, Vol. 14, Iss. 2, No. 598

Abstract

The building construction sector is undergoing one of the most profound transformations towards the digital transition of production. In recent decades, the advent of a novel technology for the 3D printing of clay opened up new sustainable possibilities in construction. Some architectural applications of 3D-printed clay bricks with simple internal configurations are being developed around the world. On the other hand, the full potential of 3D-printed bricks for building production is still unknown. Scientific studies about the design and printability of 3D-printed bricks exploiting complex internal geometries are completely missing in the related literature. This paper explores the new boundaries of 3D-printed clay bricks realized with a sustainable extrusion-based 3D clay printing process by proposing a novel conception, design, and analysis. In particular, the proposed methodological approach includes: (i) conception and design; (ii) parametric modeling; (iii) simulation of printability; and (iv) prototyping. The new design and conception aim to fully exploit the potential of 3D printing to realize complex internal geometry in a 3D-printed brick. To this aim, the research investigates the printability of internal configuration generated by using geometries with well-known remarkable mechanical properties, such as periodic minimal surfaces. In conclusion, the results are validated by a wide prototyping campaign.

4 References

  1. Salet Theo, Ahmed Zeeshan, Bos Freek, Laagland Hans (2018-05)
    Design of a 3D Printed Concrete Bridge by Testing
  2. Vantyghem Gieljan, Ooms Ticho, Corte Wouter (2020-11)
    VoxelPrint:
    A Grasshopper Plug-In for Voxel-Based Numerical Simulation of Concrete Printing
  3. Volpe Stelladriana, Sangiorgio Valentino, Petrella Andrea, Coppola Armando et al. (2021-08)
    Building Envelope Prefabricated with 3D Printing Technology
  4. Wolf Alexander, Rosendahl Philipp, Knaack Ulrich (2021-10)
    Additive Manufacturing of Clay and Ceramic Building Components

23 Citations

  1. Vargas Juan, Cárdenas Valeria, Serra Valentina, Callegari Guido et al. (2026-01)
    DfAM Framework for Prefabricated 3DP Building Components with Cellular Infills
  2. Valeri Manuela, Sangiorgio Valentino, Cantagallo Christina (2025-10)
    From Traditional Materials to Geopolymers:
    History, Performance, Sustainability and 3D Printing Applications
  3. Ramirez Rodriguez Fatima, Ahmad Rafiq (2025-09)
    Sustainable Technology Advances for Additive Construction:
    A State-of-the-Art Review
  4. Rückrich Stefanie, Austern Guy, Denay Ofer, Seiwert Paul et al. (2025-05)
    3D-Printed Earth-Fiber Envelopes:
    Optimization of Thermal Performance and Industrial Applicability
  5. Sangiorgio Valentino, Rossetti Pietro, Polidoro Anthony, Rossi Emilio (2025-02)
    Sustainable Raw-Earth Blocks Achieved with 3D-Printed Formworks:
    Parametric Modeling, Prototyping, and Laboratory Testing
  6. Tarek Shaimaa, Mansour Yasser, Abdelmohsen Sherif, Kohail Mohamed et al. (2025-02)
    Evaluating the Role of Additive Manufacturing in Adobe Brick Enhancement:
    A Comparative Study
  7. Sangiorgio Valentino, Bianchi Iacopo, Forcellese Archimede (2025-02)
    Advancing Decarbonization Through 3D Printed Concrete Formworks:
    LIFE Cycle Analysis of Technologies, Materials, and Processes
  8. Ascic Ana, Smigielska Maria, Mitropoulou Ioanna, Xydis Achilleas (2024-11)
    Clay Acoustic Patterns
  9. Nashed Kabalan Ola, Ciblac Thierry, Marceau Sandrine, Roy Robert (2024-11)
    Advancing Raw Earth Reinforcement for 3D Printed Architecture:
    Durability-Assessment
  10. Rubeis Tullio, Ciccozzi Annamaria, Giusti Letizia, Ambrosini Dario (2024-07)
    On the Use of 3D Printing to Enhance the Thermal Performance of Building Envelope:
    A Review
  11. Aabbas Mohamed, Mahdaoui Mustapha, Ahachad Mohammed, Mazian Brahim et al. (2024-07)
    Advancing Sustainable Construction:
    Terracotta Component Development Through Extrusion-Based 3D Printing with Local Clay
  12. Yousaf Arslan, Rashid Ans, Koç Muammer (2024-05)
    Parameter-Tuning for Sustainable 3D Printing of Clay Structures
  13. Los Angeles Ortega Rosario Maria, Medina Melany, Duque Rafael, Alberto Jaén Ortega Antonio et al. (2024-05)
    Advancing Sustainable Construction:
    Insights into Clay-Based Additive Manufacturing for Architecture, Engineering, and Construction
  14. Gündüz Gamze, Özkar Mine (2024-02)
    A Process-Based Framework for Adaptable Modules in Robotic Clay 3D Printing
  15. Bianchi Iacopo, Volpe Stelladriana, Fiorito Francesco, Forcellese Archimede et al. (2024-01)
    Life Cycle Assessment of Building Envelopes Manufactured Through Different 3D Printing Technologies
  16. Jauk Julian, Vašatko Hana, Gosch Lukas, Ristoski Kristijan et al. (2023-11)
    Coextrusion of Clay-Based Composites:
    Using a Multi-Material Approach to Achieve Gradient Porosity in 3D Printed Ceramics
  17. Sangiorgio Valentino, Parisi Fabio, Graziano Angelo, Tina Giosmary et al. (2023-11)
    3D Printing of Viscous Materials in Construction:
    New Design Paradigm, from Small Components to Entire Structures
  18. Taher Ammar, Aşut Serdar, Spoel Willem (2023-10)
    An Integrated Workflow for Designing and Fabricating Multi-Functional Building Components Through Additive Manufacturing with Clay
  19. Jauk Julian, Gosch Lukas, Vašatko Hana, Königsberger Markus et al. (2023-09)
    Filament-Reinforced 3D Printing of Clay
  20. Mohsen Mohamed, Diseet Malak, Aburumman Mervat, Taha Ramzi et al. (2023-09)
    3D Printed Clay Enhanced with Graphene-Nano-Platelets for Sustainable and Green Construction
  21. Arslan Volkan, Dogan Zekeriya (2023-04)
    Three-Dimensional, Printable Paving Stone:
    A Preliminary Study
  22. Volpe Stelladriana, Sangiorgio Valentino, Petrella Andrea, Notarnicola Michele et al. (2023-04)
    3D Printed Concrete Blocks Made with Sustainable Recycled Material
  23. Madrid Javier, Ortega Guillermo, Gorostiza Carabaño Javier, Olsson Nils et al. (2023-02)
    3D Claying:
    3D Printing and Recycling Clay

BibTeX 
@article{sang_pari_fien_pari.2022.TNBo3PCBD,
  author            = "Valentino Sangiorgio and Fabio Parisi and Francesco Fieni and Nicola Parisi",
  title             = "The New Boundaries of 3D-Printed Clay-Bricks-Design: Printability of Complex Internal Geometries",
  doi               = "10.3390/su14020598",
  year              = "2022",
  journal           = "Sustainability",
  volume            = "14",
  number            = "2",
  pages             = "598",
}
Formatted Citation

V. Sangiorgio, F. Parisi, F. Fieni and N. Parisi, “The New Boundaries of 3D-Printed Clay-Bricks-Design: Printability of Complex Internal Geometries”, Sustainability, vol. 14, no. 2, p. 598, 2022, doi: 10.3390/su14020598.

Sangiorgio, Valentino, Fabio Parisi, Francesco Fieni, and Nicola Parisi. “The New Boundaries of 3D-Printed Clay-Bricks-Design: Printability of Complex Internal Geometries”. Sustainability 14, no. 2 (2022): 598. https://doi.org/10.3390/su14020598.