Back
Amicarelli_LloretFritschi_2024_Concrete Plant International
Journal article

Self-compacting concrete with recycled concrete aggregates

  • Horat, Alexandra Institute for Building Technology and Environment, OST-Eastern Switzerland University of Applied Sciences, Rapperswil, Switzerland
  • Amicarelli, Fabio ORCID Accademia di architettura, Università della Svizzera italiana, Svizzera
  • Lloret Fritschi, Ena ORCID Accademia di architettura, Università della Svizzera italiana, Svizzera
  • Paglia, Christian ORCID Institute of Materials and Constructions, University of Applied Sciences and Arts Southern Switzerland (SUPSI), Mendrisio, Switzerland
  • Stürwald, Simone Institute for Building Technology and Environment, OST-Eastern Switzerland University of Applied Sciences, Rapperswil, Switzerland
  • 2024
Published in:
  • Concrete Plant Iternational (CPi). - 2024, vol. 5, p. 26-34
Paper formwork
Self-compacting concrete
English The focus of the present research is the "Foldcast" project of the Accademia di Architettura of the Università della Svizzera italiana (USI). Foldcast pursues the goal of being able to produce structurally optimised concrete components. A thin paper of 0.7 mm thickness serves as material-saving formwork. However, this type of formwork would be damaged by mechanical concrete compaction and consequently, it can only be used in combination with self-compacting concrete (SCC). Due to its special flow properties, SCC requires a higher cement paste content compared to concrete of conventional workability and therefore tends to also have a higher cement content. This contradicts the sustainable project goals of Foldcast. The aim of the present research is to develop a self-compacting concrete that is as sustainable as possible, which is achieved by conserving natural gravel resources through the use of recycled concrete aggregates and reducing CO2 emissions by reducing cement contents. Four of the tested concrete mix compositions can be recommended for use with Foldcast, based on adequate workability and sufficient strength. Depending on the mix design, the greenhouse gas emissions of the material can be reduced by up to 23%.
Collections
Language
  • English
Classification
Architecture
License
Rights reserved
Open access status
green
Identifiers
  • RICERCO 67412
  • ARK ark:/12658/srd1334752
Persistent URL
https://n2t.net/ark:/12658/srd1334752
Statistics
Document views: 3 File downloads:
  • Amicarelli_LloretFritschi_2024_Concrete Plant International: 1