Skip to content

Manufacturing Accuracy Improvement of Concrete Product by Hybrid Additive-Subtractive Method Based on the Time-Dependent Characteristics of Cementitious Materials (2024-11)

10.1016/j.conbuildmat.2024.139135

 Wang Li, Lin Wenyu,  Wan Qian,  Li Zhijian, Bai Gang
Journal Article - Construction and Building Materials, Vol. 453, No. 139135

Abstract

Cementitious materials used in 3D printing exhibit significant time-dependent characteristics in terms of earlyage rheology and stiffness development that limit high-quality manufacturing. However, the centimeter-level accuracy of concrete 3D printing makes satisfying engineering requirements difficult. To address these challenges, a hybrid additive–subtractive method was developed in this study to improve the accuracy of manufacturing concrete products. The printed components were subjected to a cutting/grinding subtractive treatment until their actual dimensions matched the design dimensions within acceptable tolerances. The processing error of the method was quantitatively analyzed using 3D laser-scanning technology, and the method’s effectiveness was validated by conducting various case studies. The results indicated that the manufacturing mismatch can be controlled within a range of 2 mm, and the surface roughness of the components can be reduced from 8.5 mm to 0.5 mm, resulting in a 94.12 % increase. Thus, the proposed method can be used in the highprecision construction of various free-form structures.

41 References

  1. Ahi Oğulcan, Ertunç Özgür, Bundur Zeynep, Bebek Özkan (2024-02)
    Automated Flow-Rate-Control of Extrusion for 3D Concrete Printing Incorporating Rheological Parameters
  2. Alabbasi Mohammad, Agkathidis Asterios, Chen Hanmei (2023-01)
    Robotic 3D Printing of Concrete Building Components for Residential Buildings in Saudi Arabia
  3. Bai Gang, Wang Li, Wang Fang, Ma Guowei (2022-12)
    Assessing Printing Synergism in a Dual 3D Printing System for Ultra-High-Performance Concrete In-Process Reinforced Cementitious Composite
  4. Bard Joshua, Cupkova Dana, Washburn Newell, Zeglin Garth (2018-12)
    Robotic Concrete Surface Finishing:
    A Moldless Approach to Creating Thermally Tuned Surface Geometry for Architectural Building Components Using Profile 3D Printing
  5. Buswell Richard, Kinnell Peter, Xu Jie, Hack Norman et al. (2020-07)
    Inspection Methods for 3D Concrete Printing
  6. Buswell Richard, Silva Wilson, Bos Freek, Schipper Roel et al. (2020-05)
    A Process Classification Framework for Defining and Describing Digital Fabrication with Concrete
  7. Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
    3D Printing Using Concrete-Extrusion:
    A Roadmap for Research
  8. Buswell Richard, Xu Jie, Becker Daniel, Dobrzanski James et al. (2022-04)
    Geometric Quality Assurance for 3D Concrete Printing and Hybrid Construction Manufacturing Using a Standardised Test Part for Benchmarking Capability
  9. Canou Joseph, Uhart Maylis, Diaz Pierre (2021-02)
    A “Low-Cost” Subtractive Method for Freshly Finished 3D Concrete Printed Structures
  10. Carneau Paul, Mesnil Romain, Baverel Olivier, Roussel Nicolas (2022-03)
    Layer Pressing in Concrete Extrusion-Based 3D Printing:
    Experiments and Analysis
  11. Chang Ze, Zhang Hongzhi, Liang Minfei, Schlangen Erik et al. (2022-07)
    Numerical Simulation of Elastic Buckling in 3D Concrete Printing Using the Lattice-Model with Geometric Non-Linearity
  12. Christ Julian, Perrot Arnaud, Ottosen Lisbeth, Koss Holger (2023-12)
    Rheological Characterization of Temperature-Sensitive Biopolymer-Bound 3D Printing Concrete
  13. Ding Tao, Xiao Jianzhuang, Mechtcherine Viktor (2023-05)
    Microstructure and Mechanical Properties of Inter-Layer Regions in Extrusion-Based 3D Printed Concrete:
    A Critical Review
  14. Dobrzanski James, Buswell Richard, Cavalaro Sergio, Kinnell Peter et al. (2021-09)
    Milling a Cement-Based 3D Printable Mortar in Its Green State Using a Ball-Nosed Cutter
  15. Hack Norman, Kloft Harald (2020-07)
    Shotcrete 3D Printing Technology for the Fabrication of Slender Fully Reinforced Freeform Concrete Elements with High Surface Quality:
    A Real-Scale Demonstrator
  16. Khan Mohammad, Sanchez Florence, Zhou Hongyu (2020-04)
    3D Printing of Concrete:
    Beyond Horizons
  17. Khoshnevis Behrokh, Hwang Dooil, Yao Ke, Yeh Zhenghao (2006-05)
    Mega-Scale Fabrication by Contour Crafting
  18. Lao Wenxin, Li Mingyang, Tjahjowidodo Tegoeh (2020-09)
    Variable-Geometry Nozzle for Surface Quality Enhancement in 3D Concrete Printing
  19. Lao Wenxin, Li Mingyang, Wong Teck, Tan Ming et al. (2020-02)
    Improving Surface-Finish-Quality in Extrusion-Based 3D Concrete Printing Using Machine-Learning-Based Extrudate-Geometry-Control
  20. Liu Xuanting, Sun Bohua (2021-11)
    The Influence of Interface on the Structural Stability in 3D Concrete Printing Processes
  21. Liu Chao, Zhang Yamei, Banthia Nemkumar (2023-05)
    Unveiling Pore Formation and Its Influence on Micromechanical Property and Stress-Distribution of 3D Printed Foam-Concrete Modified with Hydroxypropyl-Methylcellulose and Silica-Fume
  22. Ma Guowei, Buswell Richard, Silva Wilson, Wang Li et al. (2022-03)
    Technology Readiness:
    A Global Snapshot of 3D Concrete Printing and the Frontiers for Development
  23. Mechtcherine Viktor, Tittelboom Kim, Kazemian Ali, Kreiger Eric et al. (2022-04)
    A Roadmap for Quality-Control of Hardening and Hardened Printed Concrete
  24. Mohan Manu, Rahul Attupurathu, Stappen Jeroen, Cnudde Veerle et al. (2023-05)
    Assessment of Pore-Structure Characteristics and Tortuosity of 3D Printed Concrete Using Mercury-Intrusion-Porosimetry and X-Ray Tomography
  25. Muñiz Manuel, Chantin Marjorie, Vintila Cristian, Fabritius Marc et al. (2021-02)
    Concrete Hybrid Manufacturing:
    A Machine Architecture
  26. Muñoz Ivan, Madrid Javier, Muñiz Manuel, Uhart Maylis et al. (2021-01)
    Life Cycle Assessment of Integrated Additive-Subtractive Concrete 3D Printing
  27. Nair Sooraj, Sant Gaurav, Neithalath Narayanan (2021-11)
    Mathematical Morphology-Based Point-Cloud-Analysis-Techniques for Geometry-Assessment of 3D Printed Concrete Elements
  28. Nodehi Mehrab, Aguayo Federico, Nodehi Shahab, Gholampour Aliakbar et al. (2022-07)
    Durability Properties of 3D Printed Concrete
  29. Rajeev Pathmanathan, Ramesh Akilesh, Navaratnam Satheeskumar, Sanjayan Jay (2023-04)
    Using Fiber Recovered from Face Mask Waste to Improve Printability in 3D Concrete Printing
  30. Ramani Ayyagari, Chen Qian, Soto Borja (2023-08)
    Quantifying the Impact of Concrete 3D Printing on the Construction Supply Chain
  31. Wan Qian, Wang Li, Ma Guowei (2022-07)
    Continuous and Adaptable Printing Path Based on Transfinite Mapping for 3D Concrete Printing
  32. Wang Li, Ma Hui, Li Zhijian, Ma Guowei et al. (2021-07)
    Cementitious Composites Blending with High Belite-Sulfoaluminate and Medium-Heat Portland Cements for Large-Scale 3D Printing
  33. Wang Li, Ma Guowei, Liu Tianhao, Buswell Richard et al. (2021-07)
    Inter-Layer Reinforcement of 3D Printed Concrete by the In-Process Deposition of U-Nails
  34. Wangler Timothy, Roussel Nicolas, Bos Freek, Salet Theo et al. (2019-06)
    Digital Concrete:
    A Review
  35. Wang Li, Ye Kehan, Wan Qian, Li Zhijian et al. (2023-05)
    Inclined 3D Concrete Printing:
    Build-Up Prediction and Early-Age Performance-Optimization
  36. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  37. Xiao Jianzhuang, Ji Guangchao, Zhang Yamei, Ma Guowei et al. (2021-06)
    Large-Scale 3D Printing Concrete Technology:
    Current Status and Future Opportunities
  38. Xu Jie, Buswell Richard, Kinnell Peter, Biro Istvan et al. (2020-06)
    Inspecting Manufacturing Precision of 3D Printed Concrete Parts Based on Geometric Dimensioning and Tolerancing
  39. Yang Liming, Sepasgozar Samad, Shirowzhan Sara, Kashani Alireza et al. (2022-12)
    Nozzle Criteria for Enhancing Extrudability, Buildability and Inter-Layer Bonding in 3D Printing Concrete
  40. Zhang Nan, Sanjayan Jay (2023-01)
    Extrusion Nozzle Design and Print Parameter Selections for 3D Concrete Printing
  41. Zhu Jinggao, Ren Xiaodan, Cervera Miguel (2023-07)
    Peridynamic Buildability-Analysis of 3D Printed Concrete Including Damage, Plastic Flow and Collapse

2 Citations

  1. Guan Jingyuan, Wang Li, Bai Gang, Ma Guowei (2025-06)
    Enhancing 3D Printed Formwork Columns via FRP Hoop Shear Connection Reinforcement
  2. Lin Wenyu, Wang Li, Li Zhijian, Bai Gang et al. (2025-06)
    Multi-Scale Fabrication and Challenges in 3D Printing of Special -Shaped Concrete Structures

BibTeX 
@article{wang_lin_wan_li.2024.MAIoCPbHASMBotTDCoCM,
  author            = "Li Wang and Wenyu Lin and Qian Wan and Zhijian Li and Gang Bai",
  title             = "Manufacturing Accuracy Improvement of Concrete Product by Hybrid Additive-Subtractive Method Based on the Time-Dependent Characteristics of Cementitious Materials",
  doi               = "10.1016/j.conbuildmat.2024.139135",
  year              = "2024",
  journal           = "Construction and Building Materials",
  volume            = "453",
  pages             = "139135",
}
Formatted Citation

L. Wang, W. Lin, Q. Wan, Z. Li and G. Bai, “Manufacturing Accuracy Improvement of Concrete Product by Hybrid Additive-Subtractive Method Based on the Time-Dependent Characteristics of Cementitious Materials”, Construction and Building Materials, vol. 453, p. 139135, 2024, doi: 10.1016/j.conbuildmat.2024.139135.

Wang, Li, Wenyu Lin, Qian Wan, Zhijian Li, and Gang Bai. “Manufacturing Accuracy Improvement of Concrete Product by Hybrid Additive-Subtractive Method Based on the Time-Dependent Characteristics of Cementitious Materials”. Construction and Building Materials 453 (2024): 139135. https://doi.org/10.1016/j.conbuildmat.2024.139135.