Skip to content

Experimental Study of 3D Concrete Printing-Configurations Based on the Buildability Evaluation (2022-03)

10.3390/app12062939

 Cui Hongzhi, Li Yuanhong,  Cao Xiangpeng, Huang Mingyang,  Tang Waiching,  Li Zongjin
Journal Article - Applied Sciences, Vol. 12, Iss. 6

Abstract

Different formulations for 3D printable cementitious composites have been developed for extrusion-based printing. However, there is a lack of configuration guides for actual printing operations, which integrate one printable material and one printing system closely. Three testing methods for configuration determination were proposed and tested with three material proportions, with initial setting times of 2, 8, and 13 min, respectively. The building index (BI) measures the layer stacking stability based on the material, scale, and device. The height reduction test (HRT) quantifies the shortening in the height of the printed filaments. The leaning angle (LA) refers to the maximum slope of the stacked layers. In this study, results showed the critical values were (a) 0.167 for the height reduction ratio (HRR), (b) 40◦ for LA, and © 0~19.1, 0~61.1, and 0~99.4 for BI of the three mixtures. They were the meta parameters used to guide the CAD sketching, material development, and printing configurations, including the printing speed and layer height.

37 References

  1. Arunothayan Arun, Nematollahi Behzad, Ranade Ravi, Bong Shin et al. (2020-10)
    Development of 3D Printable Ultra-High-Performance Fiber-Reinforced Concrete for Digital Construction
  2. Ashrafi Negar, Nazarian Shadi, Meisel Nicholas, Duarte José (2020-10)
    Experimental Prediction of Material-Deformation in Large-Scale Additive Manufacturing of Concrete
  3. Babafemi Adewumi, Kolawole John, Miah Md, Paul Suvash et al. (2021-06)
    A Concise Review on Inter-Layer Bond Strength in 3D Concrete Printing
  4. Baz Bilal, Aouad Georges, Leblond Philippe, Mansouri Omar et al. (2020-05)
    Mechanical Assessment of Concrete:
    Steel Bonding in 3D Printed Elements
  5. Bentz Dale, Jones Scott, Bentz Isaiah, Peltz Max (2018-06)
    Towards the Formulation of Robust and Sustainable Cementitious Binders for 3D Additive Construction by Extrusion
  6. Cao Xiangpeng, Yu Shiheng, Cui Hongzhi (2022-02)
    Experimental Investigation on Inner- and Inter-Strip Reinforcements for 3D Printed Concrete via Automatic Staple Inserting Technique
  7. Chen Yu, Figueiredo Stefan, Li Zhenming, Chang Ze et al. (2020-03)
    Improving Printability of Limestone-Calcined-Clay-Based Cementitious Materials by Using Viscosity-Modifying Admixture
  8. Chen Mingxu, Li Laibo, Zheng Yan, Zhao Piqi et al. (2018-09)
    Rheological and Mechanical Properties of Admixtures-Modified 3D Printing Sulphoaluminate Cementitious Materials
  9. García-Alvarado Rodrigo, Moroni-Orellana Ginnia, Banda-Pérez Pablo (2021-06)
    Architectural Evaluation of 3D Printed Buildings
  10. Joh Changbin, Lee Jungwoo, Bui The, Park Jihun et al. (2020-11)
    Buildability and Mechanical Properties of 3D Printed Concrete
  11. Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
    Cementitious Materials for Construction-Scale 3D Printing:
    Laboratory Testing of Fresh Printing Mixture
  12. Khalil Noura, Aouad Georges, Cheikh Khadija, Rémond Sébastien (2017-09)
    Use of Calcium-Sulfoaluminate-Cements for Setting-Control of 3D Printing Mortars
  13. Khoshnevis Behrokh (2003-11)
    Automated Construction by Contour Crafting:
    Related Robotics and Information Technologies
  14. Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
    Developments in Construction-Scale Additive Manufacturing Processes
  15. Ma Guowei, Li Zhijian, Wang Li (2017-12)
    Printable Properties of Cementitious Material Containing Copper-Tailings for Extrusion-Based 3D Printing
  16. Mai (née Dressler) Inka, Freund Niklas, Lowke Dirk (2020-01)
    The Effect of Accelerator Dosage on Fresh Concrete Properties and on Inter-Layer Strength in Shotcrete 3D Printing
  17. Nair Sooraj, Panda Subhashree, Santhanam Manu, Sant Gaurav et al. (2020-05)
    A Critical Examination of the Influence of Material-Characteristics and Extruder-Geometry on 3D Printing of Cementitious Binders
  18. Nematollahi Behzad, Xia Ming, Sanjayan Jay (2017-07)
    Current Progress of 3D Concrete Printing Technologies
  19. Nerella Venkatesh, Hempel Simone, Mechtcherine Viktor (2019-02)
    Effects of Layer-Interface Properties on Mechanical Performance of Concrete Elements Produced by Extrusion-Based 3D Printing
  20. Nerella Venkatesh, Mechtcherine Viktor (2019-02)
    Studying the Printability of Fresh Concrete for Formwork-Free Concrete Onsite 3D Printing Technology (CONPrint3D)
  21. Panda Biranchi, Paul Suvash, Lim Jian, Tay Yi et al. (2017-08)
    Additive Manufacturing of Geopolymer for Sustainable Built Environment
  22. Pegna Joseph (1997-02)
    Exploratory Investigation of Solid Freeform Construction
  23. Perrot Arnaud, Jacquet Yohan, Rangeard Damien, Courteille Eric et al. (2020-03)
    Nailing of Layers:
    A Promising Way to Reinforce Concrete 3D Printing Structures
  24. Perrot Arnaud, Rangeard Damien, Pierre Alexandre (2015-02)
    Structural Build-Up of Cement-Based Materials Used for 3D Printing-Extrusion-Techniques
  25. Pham Luong, Tran Jonathan, Sanjayan Jay (2020-04)
    Steel-Fiber-Reinforced 3D Printed Concrete:
    Influence of Fiber Sizes on Mechanical Performance
  26. Rahul Attupurathu, Santhanam Manu, Meena Hitesh, Ghani Zimam (2018-12)
    3D Printable Concrete:
    Mixture-Design and Test-Methods
  27. Rehman Atta, Kim Jung-Hoon (2021-07)
    3D Concrete Printing:
    A Systematic Review of Rheology, Mix Designs, Mechanical, Microstructural, and Durability Characteristics
  28. Schutter Geert, Lesage Karel, Mechtcherine Viktor, Nerella Venkatesh et al. (2018-08)
    Vision of 3D Printing with Concrete:
    Technical, Economic and Environmental Potentials
  29. Soltan Daniel, Li Victor (2018-03)
    A Self-Reinforced Cementitious Composite for Building-Scale 3D Printing
  30. Suiker Akke, Wolfs Robert, Lucas Sandra, Salet Theo (2020-06)
    Elastic Buckling and Plastic Collapse During 3D Concrete Printing
  31. Tay Yi, Qian Ye, Tan Ming (2019-05)
    Printability-Region for 3D Concrete Printing Using Slump- and Slump-Flow-Test
  32. Tay Yi, Ting Guan, Qian Ye, Panda Biranchi et al. (2018-07)
    Time-Gap-Effect on Bond Strength of 3D Printed Concrete
  33. Tho Tuong, Thinh Nguyen (2021-01)
    Using a Cable-Driven Parallel Robot with Applications in 3D Concrete Printing
  34. Weng Yiwei, Li Mingyang, Tan Ming, Qian Shunzhi (2018-01)
    Design 3D Printing Cementitious Materials via Fuller-Thompson-Theory and Marson-Percy-Model
  35. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  36. Wolfs Robert, Bos Freek, Salet Theo (2019-06)
    Triaxial Compression Testing on Early-Age Concrete for Numerical Analysis of 3D Concrete Printing
  37. Zhang Yu, Zhang Yunsheng, Liu Guojian, Yang Yonggan et al. (2018-04)
    Fresh Properties of a Novel 3D Printing Concrete Ink

11 Citations

  1. Öztürk Ece, Ince Ceren, Borgianni Yuri, Nicolaides Demetris et al. (2025-12)
    Printability, Engineering Properties and Environmental Implications of 3D-Printed Cementitious Mortars Incorporating Hydrated Lime, Tile Powder and Accelerator
  2. An Dong, Zhang Yixia, Yang Chunhui (2024-05)
    Incorporating Coarse Aggregates into 3D Concrete Printing from Mixture Design and Process-Control to Structural Behavior and Practical Applications:
    A Review
  3. Oulkhir Fatima, Akhrif Iatimad, Jai Mostapha (2024-05)
    3D Concrete Printing Success:
    An Exhaustive Diagnosis and Failure-Modes-Analysis
  4. Alhaidary Haidar (2024-03)
    Three-Dimensional Concrete Printing as a Construction-Automation-Strategy and Assessments from a Case Study Building
  5. Chang Ze, Chen Yu, Schlangen Erik, Šavija Branko (2023-09)
    A Review of Methods on Buildability Quantification of Extrusion-Based 3D Concrete Printing:
    From Analytical Modelling to Numerical Simulation
  6. Rudziewicz Magdalena, Maroszek Marcin, Góra Mateusz, Dziura Paweł et al. (2023-09)
    Feasibility Review of Aerated Materials Application in 3D Concrete Printing
  7. Sasikumar Athira, Balasubramanian Dhayalini, Senthil Kumaran M., Govindaraj Vishnuvarthanan (2023-05)
    Effect of Coarse Aggregate Content on the Rheological and Buildability Properties of 3D Printable Concrete
  8. Tuvayanond Wiput, Prasittisopin Lapyote (2023-02)
    Design for Manufacture and Assembly of Digital Fabrication and Additive Manufacturing in Construction:
    A Review
  9. Kulaienko Oleh, Kabus Oleksii (2022-11)
    3D Concrete Printing Technology:
    Implementing Tasks in Ukraine
  10. Pham Thi, Nguyen Thu, Trinh Thanh, Nguyen Anh et al. (2022-08)
    Development of 3D Printers for Concrete Structures:
    Mix Proportion Design Approach and Laboratory Testing
  11. Cao Xiangpeng, Yu Shiheng, Cui Hongzhi, Li Zongjin (2022-04)
    3D Printing Devices and Reinforcing Techniques for Extruded Cement-Based Materials:
    A Review

BibTeX 
@article{cui_li_cao_huan.2022.ESo3CPCBotBE,
  author            = "Hongzhi Cui and Yuanhong Li and Xiangpeng Cao and Mingyang Huang and Waiching Tang and Zongjin Li",
  title             = "Experimental Study of 3D Concrete Printing-Configurations Based on the Buildability Evaluation",
  doi               = "10.3390/app12062939",
  year              = "2022",
  journal           = "Applied Sciences",
  volume            = "12",
  number            = "6",
}
Formatted Citation

H. Cui, Y. Li, X. Cao, M. Huang, W. Tang and Z. Li, “Experimental Study of 3D Concrete Printing-Configurations Based on the Buildability Evaluation”, Applied Sciences, vol. 12, no. 6, 2022, doi: 10.3390/app12062939.

Cui, Hongzhi, Yuanhong Li, Xiangpeng Cao, Mingyang Huang, Waiching Tang, and Zongjin Li. “Experimental Study of 3D Concrete Printing-Configurations Based on the Buildability Evaluation”. Applied Sciences 12, no. 6 (2022). https://doi.org/10.3390/app12062939.