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Design Optimization and Assessment of Stay-in-Place 3D Printed Concrete Formwork for Slabs (2025-10)

10.1016/j.autcon.2025.106572

 Sakha Mahsa,  Raza Saim,  Wang Xiaomeng, Fan Haifeng,  Pichler Nils,  Shahverdi Moslem
Journal Article - Automation in Construction, Vol. 181, No. 106572

Abstract

Extrusion-based 3D printing has recently expanded into fabricating concrete structures with complex geometries. Despite its potential to reshape concrete construction, its application in load-bearing elements has been delayed by concerns over weak tensile capacity and challenges in integrating conventional reinforcement. Previous research has shown that post-tensioning provides a reliable method for designing stay-in-place 3D-printed concrete formwork capable of supporting both its self-weight and freshly cast concrete toppings without requiring temporary shoring. However, that work neglected the geometric freedom enabled by 3D printing, as it lacked a comprehensive optimization analysis. This paper introduces a bottom-up optimization workflow consisting of two steps: (I) cross-sectional shape optimization and (II) spanwise optimization. This approach evaluates shapes based on structural performance and demand, then arranges them along the span for higher performance. Given this workflow, two printing strategies, open- and closed-loop, are introduced and compared, and the superior performance of the closed-loop approach is demonstrated.

24 References

  1. Anton Ana-Maria, Reiter Lex, Wangler Timothy, Frangez Valens et al. (2020-12)
    A 3D Concrete Printing Prefabrication Platform for Bespoke Columns
  2. Batikha Mustafa, Jotangia Rahul, Baaj Mohamad, Mousleh Ibrahim (2021-12)
    3D Concrete Printing for Sustainable and Economical Construction:
    A Comparative Study
  3. Beersaerts Glenn, Soete Jeroen, Giels Michiel, Eykens Lies et al. (2023-09)
    3D Printing of an Iron-Rich Slag-Based Hybrid Mortar:
    A Durable, Sustainable and Cost-Competitive Product?
  4. Bi Minghao, Tran Jonathan, Xia Lingwei, Ma Guowei et al. (2022-06)
    Topology-Optimization for 3D Concrete Printing with Various Manufacturing-Constraints
  5. Breseghello Luca, Hajikarimian Hamed, Naboni Roberto (2024-05)
    3DLightSlab:
    Design to 3D Concrete Printing Workflow for Stress-Driven Ribbed Slabs
  6. Chen Yidong, Zhang Wenhua, Zhang Yunsheng, Zhang Yu et al. (2023-03)
    3D Printed Concrete with Coarse Aggregates:
    Built-In-Stirrup Permanent Concrete Formwork for Reinforced Columns
  7. Guan Jingyuan, Wang Li, Huang Yimiao, Ma Guowei (2024-12)
    3D Printed Concrete Composite Slabs Fabricated by Pre-Stressed Reinforced Permanent Formwork:
    Design, Manufacturing, and Performance
  8. Huber Tobias, Burger Joris, Mata-Falcón Jaime, Kaufmann Walter (2023-03)
    Structural Design and Testing of Material-Optimized Ribbed RC Slabs with 3D Printed Formwork
  9. Jipa Mihail-Andrei, Bernhard Mathias, Meibodi Mania, Dillenburger Benjamin (2016-11)
    3D Printed Stay-in-Place Formwork for Topologically Optimized Concrete Slabs
  10. Jipa Mihail-Andrei, Giacomarra Federico, Giesecke Rena, Chousou Georgia et al. (2019-06)
    3D Printed Formwork for Bespoke Concrete Stairs
  11. Liu Chao, Liang Zhan, Liu Huawei, Wu Yiwen et al. (2025-03)
    Seismic Performance of 3D Printed Reinforced Concrete Walls:
    Experimental Study and Numerical Simulation
  12. Liu Huawei, Wang Yifei, Zhu Chao, Wu Yiwen et al. (2024-11)
    Design of 3D Printed Concrete Masonry for Wall Structures:
    Mechanical Behavior and Strength Calculation Methods Under Various Loads
  13. Mozaffari Salma, Kamravafar Rahasadat, Li Yunyan, Mata-Falcón Jaime et al. (2024-07)
    Leveraging Clay-Formwork 3D Printing for Reinforced-Concrete Construction
  14. Paul Suvash, Zijl Gideon, Tan Ming, Gibson Ian (2018-05)
    A Review of 3D Concrete Printing Systems and Materials Properties:
    Current Status and Future Research Prospects
  15. Raza Saim, Manshadi Behzad, Sakha Mahsa, Widmann Robert et al. (2024-10)
    Load Transfer Behavior of 3D Printed Concrete Formwork for Ribbed Slabs Under Eccentric Axial Loads
  16. Raza Saim, Sakha Mahsa, Hassan Zohaib, Manshadi Behzad et al. (2025-05)
    Flexural Behavior of Stay-in-Place Load-Bearing 3D-Printed Concrete Formwork for Ribbed Slabs
  17. Raza Saim, Sakha Mahsa, Manshadi Behzad, Fan Haifeng et al. (2024-11)
    Digital Fabrication of Ribbed Slabs with Post-Tensioned 3D Printed Concrete Formwork
  18. To Quoc, Pham Koa, Lee Gayoon, Shin Myoungsu et al. (2024-06)
    Experimental and FEM Evaluation of the Influence of Inter-Layer Bonding Strength in 3D Printed Concrete Members Under Compressive and Flexural Loadings
  19. Tu Haidong, Wei Zhenyun, Bahrami Alireza, Kahla Nabil et al. (2023-06)
    Recent Advancements and Future Trends in 3D Printing Concrete Using Waste-Materials
  20. Wang Li, Jiang Hailong, Li Zhijian, Ma Guowei (2020-02)
    Mechanical Behaviors of 3D Printed Lightweight Concrete Structure with Hollow Section
  21. Xiao Jianzhuang, Ji Guangchao, Zhang Yamei, Ma Guowei et al. (2021-06)
    Large-Scale 3D Printing Concrete Technology:
    Current Status and Future Opportunities
  22. Xiao Jianzhuang, Liu Haoran, Ding Tao (2020-11)
    Finite-Element-Analysis on the Anisotropic Behavior of 3D Printed Concrete under Compression and Flexure
  23. Zhou Wen, Zhang Yamei, Ma Lei, Li Victor (2022-04)
    Influence of Printing Parameters on 3D Printing Engineered Cementitious Composites
  24. Zhu Binrong, Nematollahi Behzad, Pan Jinlong, Zhang Yang et al. (2021-04)
    3D Concrete Printing of Permanent Formwork for Concrete Column Construction

0 Citations

BibTeX 
@article{sakh_raza_wang_fan.2026.DOaAoSiP3PCFfS,
  author            = "Mahsa Sakha and Saim Raza and Xiaomeng Wang and Haifeng Fan and Nils Pichler and Moslem Shahverdi",
  title             = "Design Optimization and Assessment of Stay-in-Place 3D Printed Concrete Formwork for Slabs",
  doi               = "10.1016/j.autcon.2025.106572",
  year              = "2026",
  journal           = "Automation in Construction",
  volume            = "181",
  pages             = "106572",
}
Formatted Citation

M. Sakha, S. Raza, X. Wang, H. Fan, N. Pichler and M. Shahverdi, “Design Optimization and Assessment of Stay-in-Place 3D Printed Concrete Formwork for Slabs”, Automation in Construction, vol. 181, p. 106572, 2026, doi: 10.1016/j.autcon.2025.106572.

Sakha, Mahsa, Saim Raza, Xiaomeng Wang, Haifeng Fan, Nils Pichler, and Moslem Shahverdi. “Design Optimization and Assessment of Stay-in-Place 3D Printed Concrete Formwork for Slabs”. Automation in Construction 181 (2026): 106572. https://doi.org/10.1016/j.autcon.2025.106572.