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Modeling and Experimental Investigation of Fiber Orientation in Cast and 3D Printed Cementitious Composites (2023-09)

10.36922/msam.1603

 Li Mingyang, Zhang Dong,  Wong Teck,  Tan Ming,  Weng Yiwei
Journal Article - Materials Science in Additive Manufacturing, Vol. 2, Iss. 3

Abstract

Fiber orientation is process-related and has significant impacts on material performance. However, existing studies only consider the impact of individual factors on the fiber orientation, either boundary impacts or flow field impacts. This work aims to study fiber orientation by considering the combined impact of these two factors. Analytical models were first constructed, which revealed that when the flow of material is negligible, fiber orientation is impacted by the boundary conditions. When the flow field is non-negligible, fiber orientation is affected by the direction of flow streamlines. Specimens were then prepared using fluorescence image processing and µ-computed tomography scanning for fiber orientation analysis. The results indicate that fiber orientation could be controlled by varying boundary constraints and flow fields. Mechanical results reveal that when the designed condition achieves directionalorientated fibers, the mechanical property of specimens could be enhanced with the applied stress direction being the same as the fiber orientation. This work provides a novel insight to tailor fiber-reinforced cementitious material properties by designing the boundary constraints and flow fields in the cast and printing processes.

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4 Citations

  1. Delavar Mohammad, Aslani Farhad, Sercombe Tim (2025-10)
    Cracking Behaviour in 3D Concrete Printed Fiber-Reinforced Cementitious Composites:
    A Review
  2. Liu Zhenbang, Li Mingyang, Wang Xiangyu, Wong Teck et al. (2025-03)
    Investigate Mechanisms of Different Printing Parameters on the Mechanical Anisotropy of 3D Concrete Printing Elements by Using Computed Tomography Scan and Computational Fluid Dynamics Methods
  3. Rama Krishna A., Mallik Mainak, Maity Damodar (2024-06)
    Developing an Appropriate Concrete Mix for 3D Concrete Printing
  4. Birru Bizu, Rehman Atta, Kim Jung-Hoon (2024-06)
    Comparative Analysis of Structural Build-Up in One-Component Stiff and Two-Component Shotcrete-Accelerated Set-on-Demand Mixtures for 3D Concrete Printing

BibTeX 
@article{li_zhan_wong_tan.2023.MaEIoFOiCa3PCC,
  author            = "Mingyang Li and Dong Zhang and Teck Neng Wong and Ming Jen Tan and Yiwei Weng",
  title             = "Modeling and Experimental Investigation of Fiber Orientation in Cast and 3D Printed Cementitious Composites",
  doi               = "10.36922/msam.1603",
  year              = "2023",
  journal           = "Materials Science in Additive Manufacturing",
  volume            = "2",
  number            = "3",
}
Formatted Citation

M. Li, D. Zhang, T. N. Wong, M. J. Tan and Y. Weng, “Modeling and Experimental Investigation of Fiber Orientation in Cast and 3D Printed Cementitious Composites”, Materials Science in Additive Manufacturing, vol. 2, no. 3, 2023, doi: 10.36922/msam.1603.

Li, Mingyang, Dong Zhang, Teck Neng Wong, Ming Jen Tan, and Yiwei Weng. “Modeling and Experimental Investigation of Fiber Orientation in Cast and 3D Printed Cementitious Composites”. Materials Science in Additive Manufacturing 2, no. 3 (2023). https://doi.org/10.36922/msam.1603.