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Peridynamic Anisotropic Behavior Analysis of 3D-Printed Concrete Structures (2025-04)

10.1016/j.compstruc.2025.107764

Zhu Jinggao,  Cervera Miguel,  Ren Xiaodan
Journal Article - Computers & Structures, Vol. 314, No. 107764

Abstract

As a layer-wise construction method, 3D-printed concrete (3DPC) introduces weak interfaces between layers, resulting in different mechanical behavior in different directions. Most studies investigate this anisotropic behavior based on experimental specimen-scale samples and do not apply it in practical engineering. To address this need, the present paper develops a peridynamic (PD) method for the anisotropic behavior analysis of 3DPC structures. As a bond-based method, the interfaces of 3DPC are easily identified by bond division and modeled by reducing bond properties in PD, establishing a simple numerical scheme for structural analysis. Through bond-based correspondence, the bi-scalar plasticity-damage model is incorporated to describe the hardened properties of 3DPC after printing. On this basis, the dynamic effect is included to consider the threat of extreme loads, under which structures show more pronounced anisotropic behavior. The developed method is rigorously verified against two experiments and is finally applied to a systematic numerical study of an arch bridge, including both static and dynamic cases. The results provide a deep understanding of the anisotropic behavior of 3DPC structures. Furthermore, the proposed method shows good performance in guiding 3D printing design and determining the optimal printing direction, demonstrating its capability for practical engineering applications.

29 References

  1. Batikha Mustafa, Jotangia Rahul, Baaj Mohamad, Mousleh Ibrahim (2021-12)
    3D Concrete Printing for Sustainable and Economical Construction:
    A Comparative Study
  2. Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
    3D Printing Using Concrete-Extrusion:
    A Roadmap for Research
  3. Diggs-McGee Brandy, Kreiger Eric, Kreiger Megan, Case Michael (2019-04)
    Print Time vs. Elapsed Time:
    A Temporal Analysis of a Continuous Printing Operation for Additive Constructed Concrete
  4. Ding Tao, Xiao Jianzhuang, Zou Shuai, Wang Yu (2020-06)
    Hardened Properties of Layered 3D Printed Concrete with Recycled Sand
  5. Feng Peng, Meng Xinmiao, Chen Jian-Fei, Ye Lieping (2015-06)
    Mechanical Properties of Structures 3D Printed with Cementitious Powders
  6. Forcael Eric, Pérez Javier, Vásquez Álvaro, García-Alvarado Rodrigo et al. (2021-08)
    Development of Communication Protocols Between BIM Elements and 3D Concrete Printing
  7. Heras Murica Daniel, Genedy Moneeb, Taha Mahmoud (2020-09)
    Examining the Significance of Infill-Printing-Pattern on the Anisotropy of 3D Printed Concrete
  8. Jayathilakage Roshan, Sanjayan Jay, Rajeev Pathmanathan (2020-07)
    Characterizing Extrudability for 3D Concrete Printing Using Discrete Element Simulations
  9. Khoshnevis Behrokh (2003-11)
    Automated Construction by Contour Crafting:
    Related Robotics and Information Technologies
  10. Ko Chien-Ho (2021-06)
    Constraints and Limitations of Concrete 3D Printing in Architecture
  11. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Hardened Properties of High-Performance Printing Concrete
  12. Liu Chenkang, Yue Songlin, Zhou Cong, Sun Honglei et al. (2021-08)
    Anisotropic Mechanical Properties of Extrusion-Based 3D Printed Layered Concrete
  13. Mader Thomas, Schreter-Fleischhacker Magdalena, Shkundalova Olena, Neuner Matthias et al. (2023-09)
    Constitutive Modeling of Orthotropic Non-Linear Mechanical Behavior of Hardened 3D Printed Concrete
  14. Mechtcherine Viktor, Bos Freek, Perrot Arnaud, Silva Wilson et al. (2020-03)
    Extrusion-Based Additive Manufacturing with Cement-Based Materials:
    Production Steps, Processes, and Their Underlying Physics
  15. Mo Yixin, Xing Jianchun, Yue Songlin, Zhang Yamei et al. (2022-04)
    Dynamic Properties of 3D Printed Cement Mortar Based on Split Hopkinson Pressure Bar Testing
  16. Muthukrishnan Shravan, Ramakrishnan Sayanthan, Sanjayan Jay (2021-06)
    Technologies for Improving Buildability in 3D Concrete Printing
  17. Nerella Venkatesh, Mechtcherine Viktor (2019-02)
    Studying the Printability of Fresh Concrete for Formwork-Free Concrete Onsite 3D Printing Technology (CONPrint3D)
  18. Ooms Ticho, Vantyghem Gieljan, Coile Ruben, Corte Wouter (2020-12)
    A Parametric Modelling-Strategy for the Numerical Simulation of 3D Concrete Printing with Complex Geometries
  19. Panda Biranchi, Paul Suvash, Mohamed Nisar, Tay Yi et al. (2017-09)
    Measurement of Tensile Bond Strength of 3D Printed Geopolymer Mortar
  20. Paritala Spandana, Singaram Kailash, Bathina Indira, Khan Mohd et al. (2023-08)
    Rheology and Pumpability of Mix Suitable for Extrusion-Based Concrete 3D Printing:
    A Review
  21. Sanjayan Jay, Nematollahi Behzad, Xia Ming, Marchment Taylor (2018-04)
    Effect of Surface Moisture on Inter-Layer Strength of 3D Printed Concrete
  22. Sepasgozar Samad, Shi Anqi, Yang Liming, Shirowzhan Sara et al. (2020-12)
    Additive Manufacturing Applications for Industry 4.0:
    A Systematic Critical Review
  23. Tay Yi, Ting Guan, Qian Ye, Panda Biranchi et al. (2018-07)
    Time-Gap-Effect on Bond Strength of 3D Printed Concrete
  24. 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
  25. Wang Chaofan, Chen Bing, Vo Thanh, Rezania Mohammad (2023-07)
    Mechanical Anisotropy, Rheology and Carbon Footprint of 3D Printable Concrete:
    A Review
  26. Wolfs Robert, Bos Freek, Salet Theo (2019-03)
    Hardened Properties of 3D Printed Concrete:
    The Influence of Process Parameters on Inter-Layer Adhesion
  27. Xiao Jianzhuang, Liu Haoran, Ding Tao (2020-11)
    Finite-Element-Analysis on the Anisotropic Behavior of 3D Printed Concrete under Compression and Flexure
  28. Zhang Chao, Jia Zijian, Wang Xianggang, Jia Lutao et al. (2022-05)
    A Two-Phase Design-Strategy Based on the Composite of Mortar and Coarse Aggregate for 3D Printable Concrete with Coarse Aggregate
  29. Zhu Jinggao, Ren Xiaodan, Cervera Miguel (2023-07)
    Peridynamic Buildability-Analysis of 3D Printed Concrete Including Damage, Plastic Flow and Collapse

1 Citations

  1. Bayrak Alper, Shaban Nefize, Sarıtaş Afsin, Meral Akgul Cagla (2025-07)
    A Semi-Empirical Framework for Modeling Anisotropy, Spatial Variation and Failure Mechanisms in 3D Printed Concrete

BibTeX 
@article{zhu_cerv_ren.2025.PABAo3PCS,
  author            = "Jinggao Zhu and Miguel Cervera and Xiaodan Ren",
  title             = "Peridynamic Anisotropic Behavior Analysis of 3D-Printed Concrete Structures",
  doi               = "10.1016/j.compstruc.2025.107764",
  year              = "2025",
  journal           = "Computers & Structures",
  volume            = "314",
  pages             = "107764",
}
Formatted Citation

J. Zhu, M. Cervera and X. Ren, “Peridynamic Anisotropic Behavior Analysis of 3D-Printed Concrete Structures”, Computers & Structures, vol. 314, p. 107764, 2025, doi: 10.1016/j.compstruc.2025.107764.

Zhu, Jinggao, Miguel Cervera, and Xiaodan Ren. “Peridynamic Anisotropic Behavior Analysis of 3D-Printed Concrete Structures”. Computers & Structures 314 (2025): 107764. https://doi.org/10.1016/j.compstruc.2025.107764.