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Enhancing Buildability of 3D Printable Concrete by Spraying of Accelerating-Admixture on Surface (2020-07)

10.1007/978-3-030-49916-7_2

 Bhattacherjee Shantanu,  Santhanam Manu
Contribution - Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication, pp. 13-22

Abstract

The buildability of printable concrete signifies the ability of the printed structure to retain the extruded shape and to sustain the dead load of subsequent layers on first extruded layer without collapse. Higher buildability can help in construction of tall sections in minimum possible time. The buildability depends on structural build-up rate which is controlled by cement hydration (chemical) and interaction between particles developed by flocculation (physical). In several ongoing research studies related to 3D printing, a common method for dispensing the accelerator in concrete is by adding it at the nozzle. This study aims at developing a method to increase the buildability by spraying the accelerator at higher dosages (>8% by weight of cementitious material) post printing. In the print of a full-scale specimen, an empirical method of first printing up to n layers, followed by spraying the accelerator up to n-2 layers (where n > 2) from base was done. Based on the success of this empirical study, a controlled laboratory assessment was performed. The study is divided into three parts - a) the enhancement in buildability is assessed by printing a structure of 200 mm height with spraying of accelerator, b) the depth of penetration is determined by microstructure study using XRD, c) the build-up and flow value is determined for different dosages of accelerators. The study provides a way of application of accelerating admixture in digital printing to attain higher buildability in lesser time.

14 References

  1. Jeong Hoseong, Han Sun-Jin, Choi Seung-Ho, Lee Yoon et al. (2019-02)
    Rheological Property Criteria for Buildable 3D Printing Concrete
  2. Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
    Cementitious Materials for Construction-Scale 3D Printing:
    Laboratory Testing of Fresh Printing Mixture
  3. Khalil Noura, Aouad Georges, Cheikh Khadija, Rémond Sébastien (2017-09)
    Use of Calcium-Sulfoaluminate-Cements for Setting-Control of 3D Printing Mortars
  4. Kruger Jacques, Zeranka Stephan, Zijl Gideon (2019-07)
    3D Concrete Printing:
    A Lower-Bound Analytical Model for Buildability-Performance-Quantification
  5. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Mix-Design and Fresh Properties for High-Performance Printing Concrete
  6. Malaeb Zeina, Sakka Fatima, Hamzeh Farook (2019-02)
    3D Concrete Printing:
    Machine Design, Mix Proportioning, and Mix Comparison Between Different Machine Setups
  7. Nerella Venkatesh, Beigh Mirza, Fataei Shirin, Mechtcherine Viktor (2018-11)
    Strain-Based Approach for Measuring Structural Build-Up of Cement-Pastes in the Context of Digital Construction
  8. Nerella Venkatesh, Krause Martin, Mechtcherine Viktor (2019-11)
    Direct Printing-Test for Buildability of 3D Printable Concrete Considering Economic Viability
  9. Panda Biranchi, Lim Jian, Tan Ming (2019-02)
    Mechanical Properties and Deformation Behavior of Early-Age Concrete in the Context of Digital Construction
  10. Panda Biranchi, Tan Ming (2018-03)
    Experimental Study on Mix Proportion and Fresh Properties of Fly-Ash-Based Geopolymer for 3D Concrete Printing
  11. Rahul Attupurathu, Santhanam Manu, Meena Hitesh, Ghani Zimam (2018-12)
    3D Printable Concrete:
    Mixture-Design and Test-Methods
  12. Weng Yiwei, Li Mingyang, Liu Zhixin, Lao Wenxin et al. (2018-12)
    Printability and Fire Performance of a Developed 3D Printable Fiber-Reinforced Cementitious Composites under Elevated Temperatures
  13. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  14. Zhang Yu, Zhang Yunsheng, Liu Guojian, Yang Yonggan et al. (2018-04)
    Fresh Properties of a Novel 3D Printing Concrete Ink

18 Citations

  1. Ghodke Swapnil, Singh Arshdeep, Singh Bhupinder, Chowdhury Shubhankar (2025-08)
    Additively Manufactured Smart Materials and Structures in Construction and Building Applications
  2. Khan Mirza, Ahmed Aayzaz, Ali Tariq, Qureshi Muhammad et al. (2024-12)
    Comprehensive Review of 3D Printed Concrete, Life Cycle Assessment, AI and ML Models:
    Materials, Engineered Properties and Techniques for Additive Manufacturing
  3. Zhi Zhenzhen, Guo Yanfei, Qi Huahui, Tan Hongbo et al. (2024-11)
    Effect of Alkali-Metal-Sulfates on Hydration Properties of Alpha-Calcium-Sulfate-Hemihydrate for 3D Printing
  4. Cui Weijiu, Sun Haijun, Zhou Jiangang, Wang Sheng et al. (2024-07)
    Geometric Quality Evaluation of Three-Dimensional Printable Concrete Using Computational Fluid Dynamics
  5. Baldoceda Jordan, Silva Guido, Kim Suyeon, Ruiz Gaby et al. (2023-07)
    Preliminary Experimental Evaluation of Buildability Improvement Methods for Concrete for 3D Printing
  6. Tu Haidong, Wei Zhenyun, Bahrami Alireza, Kahla Nabil et al. (2023-06)
    Recent Advancements and Future Trends in 3D Printing Concrete Using Waste-Materials
  7. Riaz Raja, Usman Muhammad, Ali Ammar, Majid Usama et al. (2023-06)
    Inclusive Characterization of 3D Printed Concrete in Additive Manufacturing:
    A Detailed Review
  8. Ali Ammar, Riaz Raja, Malik Umair, Abbas Syed et al. (2023-06)
    Machine-Learning-Based Predictive-Model for Tensile and Flexural Strength of 3D Printed Concrete
  9. Fonseca Mariana, Matos Ana (2023-03)
    3D Construction Printing Standing for Sustainability and Circularity:
    Material-Level Opportunities
  10. Boddepalli Uday, Panda Biranchi, Gandhi Indu (2022-09)
    Rheology and Printability of Portland-Cement-Based Materials:
    A Review
  11. Bhattacherjee Shantanu, Jain Smrati, Santhanam Manu (2022-06)
    Criticality of Microstructural Evolution at an Early-Age on the Buildability of an Accelerated 3D Printable Concrete
  12. Ramakrishnan Sayanthan, Kanagasuntharam Sasitharan, Sanjayan Jay (2022-05)
    In-Line Activation of Cementitious Materials for 3D Concrete Printing
  13. Bhattacherjee Shantanu, Santhanam Manu (2022-04)
    Investigation on the Effect of Alkali-Free Aluminium Sulfate-Based Accelerator on the Fresh Properties of 3D Printable Concrete
  14. Şahin Hatice, Mardani Ali (2021-12)
    Assessment of Materials, Design Parameters and Some Properties of 3D Printing Concrete Mixtures:
    A State of the Art Review
  15. Lyu Fuyan, Zhao Dongliang, Hou Xiaohui, Sun Li et al. (2021-10)
    Overview of the Development of 3D Printing Concrete:
    A Review
  16. Rehman Atta, Kim Jung-Hoon (2021-07)
    3D Concrete Printing:
    A Systematic Review of Rheology, Mix Designs, Mechanical, Microstructural, and Durability Characteristics
  17. Zhang Chao, Nerella Venkatesh, Krishna Anurag, Wang Shen et al. (2021-06)
    Mix-Design Concepts for 3D Printable Concrete:
    A Review
  18. Pott Ursula, Stephan Dietmar (2021-04)
    Penetration-Test as a Fast Method to Determine Yield-Stress and Structural Build-Up for 3D Printing of Cementitious Materials

BibTeX 
@inproceedings{bhat_sant.2020.EBo3PCbSoAAoS,
  author            = "Shantanu Bhattacherjee and Manu Santhanam",
  title             = "Enhancing Buildability of 3D Printable Concrete by Spraying of Accelerating-Admixture on Surface",
  doi               = "10.1007/978-3-030-49916-7_2",
  year              = "2020",
  volume            = "28",
  pages             = "13--22",
  booktitle         = "Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020",
  editor            = "Freek Paul Bos and Sandra Simaria de Oliveira Lucas and Robert Johannes Maria Wolfs and Theo A. M. Salet",
}
Formatted Citation

S. Bhattacherjee and M. Santhanam, “Enhancing Buildability of 3D Printable Concrete by Spraying of Accelerating-Admixture on Surface”, in Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020, 2020, vol. 28, pp. 13–22. doi: 10.1007/978-3-030-49916-7_2.

Bhattacherjee, Shantanu, and Manu Santhanam. “Enhancing Buildability of 3D Printable Concrete by Spraying of Accelerating-Admixture on Surface”. In Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020, edited by Freek Paul Bos, Sandra Simaria de Oliveira Lucas, Robert Johannes Maria Wolfs, and Theo A. M. Salet, 28:13–22, 2020. https://doi.org/10.1007/978-3-030-49916-7_2.