Skip to content

Earth as a Construction-Material for Sustainable 3D Printing (2023-06)

Rheological Aspect

10.1007/978-3-031-33890-8_24

 Joshi Arpan,  Poullain Philippe,  Craveiro Flávio,  Bártolo Helena
Contribution - Progress in Digital and Physical Manufacturing, pp. 270-280

Abstract

The construction industry is one of the prime users of global resources and a major contributor to global environmental impacts. Moving to a clean, circular economy can facilitate achieving the European Green Deal objectives, such as minimum environmental impacts, net-zeroCO2emissions, and zerowaste. 3D Printing technologies have been mainly used to create cementitious-based construction components. On the other hand, the earth is an eco-friendly natural material, used as a construction material since ancient times, though the investigation of the physical and mechanical behavior of earth-based composites for 3D Printing has been limited. This work aims to explore the rheology of earth-based material to better understand its viability to be used as construction material for 3D Printing.

9 References

  1. Cesaretti Giovanni, Dini Enrico, Kestelier Xavier, Colla Valentina et al. (2013-08)
    Building Components for an Outpost on the Lunar Soil by Means of a Novel 3D Printing Technology
  2. Craveiro Flávio, Duarte José, Bártolo Helena, Bartolo Paulo (2019-04)
    Additive Manufacturing as an Enabling Technology for Digital Construction:
    A Perspective on Construction 4.0
  3. Craveiro Flávio, Nazarian Shadi, Bártolo Helena, Bartolo Paulo et al. (2020-02)
    An Automated System for 3D Printing Functionally Graded Concrete-Based Materials
  4. Dubois Vincent, Leblanc Alexandre, Carpentier Olivier, Alhaik Ghaith et al. (2018-01)
    Performances of Flax Shive-Based Lightweight Composites with Rapid Hardening
  5. Kontovourkis Odysseas, Tryfonos George (2019-11)
    Robotic 3D Clay Printing of Prefabricated Non-Conventional Wall Components Based on a Parametric-Integrated Design
  6. Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
    Developments in Construction-Scale Additive Manufacturing Processes
  7. Ortega Guillermo, Madrid Javier, Olsson Nils, Tenorio Ríos José (2020-08)
    The Application of 3D Printing Techniques in the Manufacturing of Cement-Based Construction Products and Experiences Based on the Assessment of Such Products
  8. Perrot Arnaud, Rangeard Damien, Courteille Eric (2018-04)
    3D Printing of Earth-Based Materials:
    Processing Aspects
  9. Suiker Akke, Wolfs Robert, Lucas Sandra, Salet Theo (2020-06)
    Elastic Buckling and Plastic Collapse During 3D Concrete Printing

1 Citations

  1. Asaf Ofer, Larianovsky Pavel, Bentur Arnon, Sprecher Aaron (2024-09)
    Transforming Earths:
    Designing 3D Printable Materials for Robotic Earth Architecture

BibTeX 
@inproceedings{josh_poul_crav_bart.2023.EaaCMfS3P,
  author            = "Arpan Joshi and Philippe Poullain and Flávio Craveiro and Helena Galha Bártolo",
  title             = "Earth as a Construction-Material for Sustainable 3D Printing: Rheological Aspect",
  doi               = "10.1007/978-3-031-33890-8_24",
  year              = "2023",
  pages             = "270--280",
  booktitle         = "Progress in Digital and Physical Manufacturing",
  editor            = "Joel Oliveira Correia Vasco",
}
Formatted Citation

A. Joshi, P. Poullain, F. Craveiro and H. G. Bártolo, “Earth as a Construction-Material for Sustainable 3D Printing: Rheological Aspect”, in Progress in Digital and Physical Manufacturing, 2023, pp. 270–280. doi: 10.1007/978-3-031-33890-8_24.

Joshi, Arpan, Philippe Poullain, Flávio Craveiro, and Helena Galha Bártolo. “Earth as a Construction-Material for Sustainable 3D Printing: Rheological Aspect”. In Progress in Digital and Physical Manufacturing, edited by Joel Oliveira Correia Vasco, 270–80, 2023. https://doi.org/10.1007/978-3-031-33890-8_24.