# Designing and prototyping of a reconfigurable segmented fan concrete shell as a flooring system

**Authors:** Mishael Nuh, Robin Oval, John Orr

PMC · DOI: 10.1007/s44150-025-00126-6 · 2025-01-15

## TL;DR

This paper introduces a reconfigurable segmented fan concrete shell flooring system that is lightweight, carbon-efficient, and supports disassembly and reuse for sustainable construction.

## Contribution

The novel segmented fan concrete shell offers reconfigurability and circular economy compatibility while maintaining structural efficiency.

## Key findings

- Quarter-scale prototypes demonstrated structural viability and identified limitations for future development.
- Embodied carbon analysis showed a 20% premium over non-reconfigurable systems but potential long-term savings with extended lifespan.
- The system enables disassembly and reuse, aligning with circular economy principles for the built environment.

## Abstract

A significant portion of the environmental impact of a building’s superstructure lies in its structural flooring. By leveraging funicular forms such as thin concrete shells, a materially and carbon-efficient alternative to bending-active flooring systems can be attained. In addition, through segmentation and the use of dry jointed interfaces, a segmented concrete shell allows for ease of disassembly compatible with circular economy principles for the built environment. This paper presents a novel segmented concrete shell flooring system that leverages the symmetry of revolution of the classical fan vault form to facilitate future design flexibility through increased reconfigurability. The design and form-finding of the segmented fan concrete shell are detailed through the use of an evolutionary algorithm and finite element analysis. Quarter-scale prototypes were digitally fabricated using a robotic concrete spraying process which were then assembled and tested to assess its structural potential, evaluate the limitations, and identify areas of future work. An embodied carbon analysis demonstrates that the system provides a mass and embodied carbon saving compared to conventional flooring systems while adding approximately a 20% embodied carbon premium over a comparable non-reconfigurable segmented shell flooring system. Rephrased, the proposed system provides a positive embodied carbon saving if enabling design flexibility through reconfiguration increases the life-span of the system by at least 20%. Through this work, it is shown that a segmented fan concrete shell presents a viable lightweight and carbon-efficient flooring system which has the potential to become a sustainable alternative that enables disassembly, reuse, and even reconfigurability for circular construction provided further research and development to address its current limitations for adoption in industry practices.

## Full-text entities

- **Chemicals:** carbon (MESH:D002244)

## Figures

22 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12273892/full.md

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Source: https://tomesphere.com/paper/PMC12273892