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Salt-Scaling-Resistance of 3D Printed Concrete (2022-06)

10.1007/978-3-031-06116-5_28

 Mohan Manu,  Rahul Attupurathu,  de Schutter Geert,  van Tittelboom Kim
Contribution - Proceedings of the 3rd RILEM International Conference on Concrete and Digital Fabrication, pp. 188-193

Abstract

Extrusion-based 3D concrete printing is an emerging technology in the construction field due to the many advantages associated with it as compared to conventional mould casting technology. However, many aspects like durability and long-term service performance are yet to be investigated in detail. The present study focuses on understanding the salt scaling resistance of 3D printed concrete samples. 3D printed concrete samples were prepared with a Portland cement mixture on the one hand and a mixture containing a blend of Portland cement and blast furnace slag on the other hand. The printed samples were subjected to freeze and thaw cycles with a 3% saltwater concentration. It was observed that the 3D printed samples exhibited better resistance against salt scaling compared to the mould cast samples made with the same mixture. The pore structure of the 3D printed samples was characterized by mercury intrusion porosimetry. It was observed that the presence of a higher amount of interconnected and coarser pores at the interlayer region of the 3D printed samples, acting like pockets of air voids, facilitates the release of ice crystallization pressure during the freezing phase. The study gives insights into the durability characteristics and feasibility of using 3D printed concrete elements exposed to aggressive environmental conditions.

8 References

  1. Mohan Manu, Rahul Attupurathu, Dam Benjamin, Zeidan Talina et al. (2022-02)
    Performance Criteria, Environmental Impact and Cost-Assessment for 3D Printable Concrete Mixtures
  2. Mohan Manu, Rahul Attupurathu, Schutter Geert, Tittelboom Kim (2021-01)
    Early-Age Hydration, Rheology and Pumping Characteristics of CSA Cement-Based 3D Printable Concrete
  3. Mohan Manu, Rahul Attupurathu, Schutter Geert, Tittelboom Kim (2020-10)
    Extrusion-Based Concrete 3D Printing from a Material Perspective:
    A State of the Art Review
  4. Mohan Manu, Rahul Attupurathu, Schutter Geert, Tittelboom Kim (2021-09)
    Inter-Layer Bond and Porosity of 3D Printed Concrete
  5. Mohan Manu, Rahul Attupurathu, Tittelboom Kim, Schutter Geert (2020-07)
    Evaluating the Influence of Aggregate Content on Pumpability of 3D Printable Concrete
  6. Mohan Manu, Rahul Attupurathu, Tittelboom Kim, Schutter Geert (2020-10)
    Rheological and Pumping Behavior of 3D Printable Cementitious Materials with Varying Aggregate Content
  7. Putten Jolien, Deprez Maxim, Cnudde Veerle, Schutter Geert et al. (2019-09)
    Microstructural Characterization of 3D Printed Cementitious Materials
  8. Rahul Attupurathu, Mohan Manu, Schutter Geert, Tittelboom Kim (2021-10)
    3D Printable Concrete with Natural and Recycled Coarse Aggregates:
    Rheological, Mechanical and Shrinkage Behavior

5 Citations

  1. Tarhan Yeşim, Şahin Remzi (2024-12)
    The Impact of Air-Entraining on Frost-Endurance in 3D Printed Concrete:
    The Function of Printing Orientation and Curing Process
  2. Ler Kee-Hong, Ma Chau-Khun, Chin Chee-Long, Ibrahim Izni et al. (2024-08)
    Porosity and Durability Tests on 3D Printing Concrete:
    A Review
  3. Huseien Ghasan, Tan Shea, Saleh Ali, Lim Nor et al. (2024-08)
    Test-Procedures and Mechanical Properties of Three-Dimensional Printable Concrete Enclosing Different Mix-Proportions:
    A Review and Bibliometric Analysis
  4. Prihar Arjun, Garlock Maria, Najmeddine Aimane, Moini Mohamadreza (2024-01)
    Mechanical Performance of Sinusoidally Architected Concrete Enabled by Robotic Additive Manufacturing
  5. Ghantous Rita, Evseeva Anastasiia, Dickey Brandon, Gupta Shashank et al. (2023-07)
    Examining Effect of Printing-Directionality on Freezing-and-Thawing Response of Three-Dimensional-Printed Cement-Paste

BibTeX 
@inproceedings{moha_rahu_schu_titt.2022.SSRo3PC,
  author            = "Manu K. Mohan and Attupurathu Vijayan Rahul and Geert de Schutter and Kim van Tittelboom",
  title             = "Salt-Scaling-Resistance of 3D Printed Concrete",
  doi               = "10.1007/978-3-031-06116-5_28",
  year              = "2022",
  volume            = "37",
  pages             = "188--193",
  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

M. K. Mohan, A. V. Rahul, G. de Schutter and K. van Tittelboom, “Salt-Scaling-Resistance of 3D Printed Concrete”, in Proceedings of the 3rd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2022, 2022, vol. 37, pp. 188–193. doi: 10.1007/978-3-031-06116-5_28.

Mohan, Manu K., Attupurathu Vijayan Rahul, Geert de Schutter, and Kim van Tittelboom. “Salt-Scaling-Resistance of 3D Printed Concrete”. 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, 37:188–93, 2022. https://doi.org/10.1007/978-3-031-06116-5_28.