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Materialising Structural Optimization of Reinforced Concrete Beams Through Digital Fabrication (2023-12)

10.1016/j.istruc.2023.105644

Maitenaz Sébastien,  Mesnil Romain, Féraille Adélaïde,  Caron Jean-François
Journal Article - Structures, Vol. 59, No. 105644

Abstract

This study tackles the design, fabrication and testing of truss-like reinforced concrete beams. The paper introduces the strut optimisation method, a Eurocode 2-compliant design procedure which allows to optimise the shear strength of beams. The procedure is embedded in a numerical workflow that automates the design and fabrication of beams. Through a parametric study, potential concrete savings of 24% to 64% are estimated. A digital manufacturing workflow is presented. It is based on the 3D printing of recyclable clay moulds allowing to cast the hollowed-out parts truss-like elements. The fabrication of a 3 m-long prototype illustrates the implementation of the process. Four-point bending tests made on SOM-optimised specimens validate the compliance between the empirical behaviour and the theoretical model, paving the way for wider adoption of materially-efficient reinforced concrete beams.

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BibTeX 
@article{mait_mesn_fera_caro.2024.MSOoRCBTDF,
  author            = "Sébastien Maitenaz and Romain Mesnil and Adélaïde Féraille and Jean-François Caron",
  title             = "Materialising Structural Optimization of Reinforced Concrete Beams Through Digital Fabrication",
  doi               = "10.1016/j.istruc.2023.105644",
  year              = "2024",
  journal           = "Structures",
  volume            = "59",
  pages             = "105644",
}
Formatted Citation

S. Maitenaz, R. Mesnil, A. Féraille and J.-F. Caron, “Materialising Structural Optimization of Reinforced Concrete Beams Through Digital Fabrication”, Structures, vol. 59, p. 105644, 2024, doi: 10.1016/j.istruc.2023.105644.

Maitenaz, Sébastien, Romain Mesnil, Adélaïde Féraille, and Jean-François Caron. “Materialising Structural Optimization of Reinforced Concrete Beams Through Digital Fabrication”. Structures 59 (2024): 105644. https://doi.org/10.1016/j.istruc.2023.105644.