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An Experimental Study of Thermal Performance of 3D Printed Concrete Slabs (2022-10)

10.1016/j.matlet.2022.133273

 Dey Dhrutiman,  Panda Biranchi
Journal Article - Materials Letters, Vol. 330

Abstract

This work presents the most important advances in 3D printing, specifically the thermal performance of 3D printed concrete slabs with potential use as walls elements. One of the principal factors restricting widespread adoption of 3D printed concrete is the lack of thermal insulation, which needs an immediate attention. It is with this backdrop that this paper conducts a preliminary investigation on the thermal performance of 3D printed slabs containing two different cavity patterns with and without insulation material. The 3D printed solid slab has shown slight reduction in inside surface temperature (1℃) than casted slab owing to the cold joints between the printed layers. Compared to solid printed slab, 3D printed hollow slab with two and three identical cavities have shown 6℃ and 4 ◦C higher inside surface temperature respectively. However, with added insulation, the inside temperature of printed hollow slabs was found to be similar to the solid slab due to increased insulation capacity. The delayed heat transfer resulted in higher outside surface temperature for the 3D printed hollow insulated slabs.

7 References

  1. Dey Dhrutiman, Srinivas Dodda, Panda Biranchi, Suraneni Prannoy et al. (2022-02)
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22 Citations

  1. Wang Jinjin, Li Shouzhen, Qiu Jin, Chen Cheng et al. (2025-12)
    Experimental Investigation on Thermal Performance of 3D Printed Concrete Elements Subjected to Radiant Heating
  2. Geng Renyu, Jiang Jinming, Du Pengcong, Zhang Huiliang et al. (2025-11)
    Multiscale Thermal Optimization of 3D-Printed Walls:
    Integrating Structure, Material, and Process with Fire-Thermal Synergy
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    Mechanistic Insights into Microstructural Changes Caused by Stapling in Extrusion-Based 3D Printed Concrete (3DPC)
  4. Dey Dhrutiman, Panda Biranchi, Shukla Yash, Rawal Rajan (2025-03)
    A Comprehensive Assessment of Thermal Performance of 3D Printed Concrete Lattice Walls
  5. Khanverdi Mohsen, Das Sreekanta (2025-03)
    Experimental Study on Water Penetration and Thermal Resistance of Large-Scale 3D-Printed Cementitious Walls
  6. Dey Dhrutiman, Kumar Gaurav, Prasad Ventrapragada, Panda Biranchi (2024-12)
    Experimental Investigation of Thermal Performance of 3D Printed Slab Infused with Lightweight Concrete as Insulation
  7. Mackin Anthony, Hanoun Zaid, Migliorino Jenna, Ahmed Aly et al. (2024-10)
    Multi-Functional Additively Constructed Honeycomb Walls for Housing and Sheltering
  8. Dey Dhrutiman, Panda Biranchi (2024-09)
    Numerical Evaluation of Thermal Performance and Improvement-Strategies for 3D Printed Concrete Structures
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    Thermal and Energy Efficiency in 3D Printed Buildings:
    Review of Geometric Design, Materials and Printing Processes
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    On the Use of 3D Printing to Enhance the Thermal Performance of Building Envelope:
    A Review
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    Influence of Printing Parameters on the Thermal Properties of 3D Printed Construction Structures
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    Performance Requirements and Optimum Mix Proportion of High-Volume Fly-Ash 3D Printable Concrete
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    Towards Innovative and Sustainable Buildings:
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    Effect of Silica-Fume Utilization on Structural Build-Up, Mechanical and Dimensional Stability Performance of Fiber-Reinforced 3D Printable Concrete
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    Flexural Performance of 3D Printed Concrete Structure with Lattice-Infills
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    Thermal Performance of 3D Concrete Printed Walls:
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    A Structural and Thermal Comparative Review of 3D Printed Wall Shapes
  18. Maurya Shubham, Dey Dhrutiman, Panda Biranchi, Dixit Uday (2023-04)
    In-Line Reinforcement of Steel-Cable in 3D Concrete Printing
  19. Dey Dhrutiman, Sahu Akshay, Prakash Srajan, Panda Biranchi (2023-03)
    A Study into the Effect of Material-Deposition-Methods on Hardened Properties of 3D Printed Concrete
  20. Li Zhengrong, Xing Wenjing, Sun Jingting, Feng Xiwen (2022-12)
    Multi-Scale Structural Characteristics and Heat-Moisture Properties of 3D Printed Building Walls:
    A Review
  21. Boddepalli Uday, Gandhi Indu, Panda Biranchi (2022-12)
    Stability of Three-Dimensional Printable Foam-Concrete as Function of Surfactant Characteristics
  22. Srinivas Dodda, Dey Dhrutiman, Panda Biranchi, Sitharam Thallak (2022-12)
    Printability, Thermal and Compressive Strength Properties of Cementitious Materials:
    A Comparative Study with Silica-Fume and Limestone

BibTeX 
@article{dey_pand.2023.AESoTPo3PCS,
  author            = "Dhrutiman Dey and Biranchi Narayan Panda",
  title             = "An Experimental Study of Thermal Performance of 3D Printed Concrete Slabs",
  doi               = "10.1016/j.matlet.2022.133273",
  year              = "2023",
  journal           = "Materials Letters",
  volume            = "330",
}
Formatted Citation

D. Dey and B. N. Panda, “An Experimental Study of Thermal Performance of 3D Printed Concrete Slabs”, Materials Letters, vol. 330, 2023, doi: 10.1016/j.matlet.2022.133273.

Dey, Dhrutiman, and Biranchi Narayan Panda. “An Experimental Study of Thermal Performance of 3D Printed Concrete Slabs”. Materials Letters 330 (2023). https://doi.org/10.1016/j.matlet.2022.133273.