Process simulation-informed topology optimization for formwork-based concrete casting

Wei Tong; Xiaoya Zhai; Yiwei Weng; Jun Wu

doi:10.1007/s00158-025-04084-x

Process simulation-informed topology optimization for formwork-based concrete casting

Wei Tong, Xiaoya Zhai, Yiwei Weng, Jun Wu

Research output: Journal article publication › Journal article › Academic research › peer-review

Abstract

Concrete casting, a cornerstone of construction, relies on formwork to shape structures and has been used to create topology-optimized lightweight designs. The interplay between cast structures and formwork necessitates balancing casting constraints, particularly filling efficiency in topological channels, to avoid defects that compromise performance. However, filling efficiency is often empirically addressed, limiting optimization potential. Traditional methods require extensive post-processing to improve filling efficiency, increasing costs and design time. This work introduces a process simulation-informed reverse topology optimization framework, integrating casting constraints into the design process. The framework combines topology optimization, Discrete Element Method (DEM) simulation, and filling ratio identification. Its effectiveness is demonstrated through 2D numerical examples, experimental validation, and a preliminary 3D extension. Results show that the optimized structures improve filling efficiency and allow customizable casting positions. This approach offers a novel strategy for formwork optimization, enhancing efficiency and reducing costs in the building industry.

Original language	English
Article number	154
Journal	Structural and Multidisciplinary Optimization
Volume	68
Issue number	8
DOIs	https://doi.org/10.1007/s00158-025-04084-x
Publication status	Published - Aug 2025

Keywords

Casting design
DEM
Formwork
Manufacturing constraints
Topology optimization

ASJC Scopus subject areas

Software
Control and Systems Engineering
Computer Science Applications
Computer Graphics and Computer-Aided Design
Control and Optimization

More information

10.1007/s00158-025-04084-x

http://hdl.handle.net/10397/115549

Cite this

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title = "Process simulation-informed topology optimization for formwork-based concrete casting",

abstract = "Concrete casting, a cornerstone of construction, relies on formwork to shape structures and has been used to create topology-optimized lightweight designs. The interplay between cast structures and formwork necessitates balancing casting constraints, particularly filling efficiency in topological channels, to avoid defects that compromise performance. However, filling efficiency is often empirically addressed, limiting optimization potential. Traditional methods require extensive post-processing to improve filling efficiency, increasing costs and design time. This work introduces a process simulation-informed reverse topology optimization framework, integrating casting constraints into the design process. The framework combines topology optimization, Discrete Element Method (DEM) simulation, and filling ratio identification. Its effectiveness is demonstrated through 2D numerical examples, experimental validation, and a preliminary 3D extension. Results show that the optimized structures improve filling efficiency and allow customizable casting positions. This approach offers a novel strategy for formwork optimization, enhancing efficiency and reducing costs in the building industry.",

keywords = "Casting design, DEM, Formwork, Manufacturing constraints, Topology optimization",

author = "Wei Tong and Xiaoya Zhai and Yiwei Weng and Jun Wu",

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AU - Tong, Wei

AU - Zhai, Xiaoya

AU - Weng, Yiwei

AU - Wu, Jun

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/8

Y1 - 2025/8

N2 - Concrete casting, a cornerstone of construction, relies on formwork to shape structures and has been used to create topology-optimized lightweight designs. The interplay between cast structures and formwork necessitates balancing casting constraints, particularly filling efficiency in topological channels, to avoid defects that compromise performance. However, filling efficiency is often empirically addressed, limiting optimization potential. Traditional methods require extensive post-processing to improve filling efficiency, increasing costs and design time. This work introduces a process simulation-informed reverse topology optimization framework, integrating casting constraints into the design process. The framework combines topology optimization, Discrete Element Method (DEM) simulation, and filling ratio identification. Its effectiveness is demonstrated through 2D numerical examples, experimental validation, and a preliminary 3D extension. Results show that the optimized structures improve filling efficiency and allow customizable casting positions. This approach offers a novel strategy for formwork optimization, enhancing efficiency and reducing costs in the building industry.

AB - Concrete casting, a cornerstone of construction, relies on formwork to shape structures and has been used to create topology-optimized lightweight designs. The interplay between cast structures and formwork necessitates balancing casting constraints, particularly filling efficiency in topological channels, to avoid defects that compromise performance. However, filling efficiency is often empirically addressed, limiting optimization potential. Traditional methods require extensive post-processing to improve filling efficiency, increasing costs and design time. This work introduces a process simulation-informed reverse topology optimization framework, integrating casting constraints into the design process. The framework combines topology optimization, Discrete Element Method (DEM) simulation, and filling ratio identification. Its effectiveness is demonstrated through 2D numerical examples, experimental validation, and a preliminary 3D extension. Results show that the optimized structures improve filling efficiency and allow customizable casting positions. This approach offers a novel strategy for formwork optimization, enhancing efficiency and reducing costs in the building industry.

KW - Casting design

KW - DEM

KW - Formwork

KW - Manufacturing constraints

KW - Topology optimization

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DO - 10.1007/s00158-025-04084-x

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ER -

Process simulation-informed topology optimization for formwork-based concrete casting

Abstract

Keywords

ASJC Scopus subject areas

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