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Mechanical Properties of 3D Printed Carbon Fiber-Reinforced Cement Mortar (2023-12)

10.3390/fib11120109

 Li Yeou-Fong, Tsai Pei-Jen,  Syu Jin-Yuan, Lok Man-Hoi, Chen Huei-Shiung
Journal Article - Fibers, Vol. 11, Iss. 12, No. 109

Abstract

The 3D printing process is different from traditional construction methods of formwork casting due to the use of additive manufacturing. This study develops a suitable 3D-printed carbon fiber-reinforced cement mortar (CFRCM) considering the extrudability, fluidity, setting time, and buildability of the CFRCM. The difference in compressive strength and flexural strength between 3D-printed specimens and conventional cast specimens was investigated by varying the amount of carbon fiber added (carbon fiber to cement ratio, 2.5 vol.‰, 5 vol.‰, 7.5 vol.‰, and 10 vol.‰) and the curing times (7th day and 28th day). The results of the experiments indicate that the addition of 6 wt.% cement accelerators to the cementitious mortar allows for a controlled initial setting time of approximately half an hour. The fluidity of the CFRCM was controlled by adjusting the dosage of the superplasticizer. When the slump was in the range of 150 mm to 190 mm, the carbon fiber to cement ratio 2.5 vol.‰ could be incorporated into the cementitious mortar, enabling the printing of hollow cylinders with a height of up to 750 mm. Comparing the 3D-printed specimens with the traditionally cast specimens, it was found that the addition of a carbon fiber to cement ratio of 7.5 vol.‰, and 10 vol.‰ resulted in the optimal compressive strength and flexural strength, respectively.

52 References

  1. Arunothayan Arun, Nematollahi Behzad, Khayat Kamal, Ramesh Akilesh et al. (2022-11)
    Rheological Characterization of Ultra-High-Performance Concrete for 3D Printing
  2. Arunothayan Arun, Nematollahi Behzad, Ranade Ravi, Bong Shin et al. (2021-02)
    Fiber-Orientation Effects on Ultra-High-Performance Concrete Formed by 3D Printing
  3. Asakawa Tomoya, Nishiwaki Tomoya, Ohno Kazunori, Yokoyama Shigeru et al. (2022-06)
    Fundamental Study on Automated Inter-Layer Reinforcing System with Metal-Fiber-Insertion for 3D Concrete Printer
  4. Ashrafi Negar, Duarte José, Nazarian Shadi, Meisel Nicholas (2018-10)
    Evaluating the Relationship Between Deposition and Layer-Quality in Large-Scale Additive Manufacturing of Concrete
  5. Bos Freek, Ahmed Zeeshan, Jutinov Evgeniy, Salet Theo (2017-11)
    Experimental Exploration of Metal-Cable as Reinforcement in 3D Printed Concrete
  6. Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
    3D Printing Using Concrete-Extrusion:
    A Roadmap for Research
  7. Cao Xiangpeng, Yu Shiheng, Zheng Dapeng, Cui Hongzhi (2022-06)
    Nail-Planting to Enhance the Interface Bonding Strength in 3D Printed Concrete
  8. Chang Ze, Xu Yading, Chen Yu, Gan Yidong et al. (2021-05)
    A Discrete Lattice-Model for Assessment of Buildability Performance of 3D Printed Concrete
  9. 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
  10. Ding Tao, Xiao Jianzhuang, Zou Shuai, Yu Jiangtao (2021-03)
    Flexural Properties of 3D Printed Fiber-Reinforced Concrete with Recycled Sand
  11. Giwa Ilerioluwa, Game Daniel, Ahmed Hassan, Noorvand Hassan et al. (2023-02)
    Performance and Macrostructural Characterization of 3D Printed Steel-Fiber-Reinforced Cementitious Materials
  12. Gosselin Clément, Duballet Romain, Roux Philippe, Gaudillière-Jami Nadja et al. (2016-03)
    Large-Scale 3D Printing of Ultra-High-Performance Concrete:
    A New Processing Route for Architects and Builders
  13. Hambach Manuel, Rutzen Matthias, Volkmer Dirk (2019-02)
    Properties of 3D-Printed Fiber-Reinforced Portland Cement-Paste
  14. Hambach Manuel, Volkmer Dirk (2017-02)
    Properties of 3D Printed Fiber-Reinforced Portland-Cement-Paste
  15. Hwang Dooil, Khoshnevis Behrokh (2004-09)
    Concrete Wall Fabrication by Contour Crafting
  16. Ivanova Irina, Ivaniuk Egor, Bisetti Sameercharan, Nerella Venkatesh et al. (2022-03)
    Comparison Between Methods for Indirect Assessment of Buildability in Fresh 3D Printed Mortar and Concrete
  17. Jayathilakage Roshan, Rajeev Pathmanathan, Sanjayan Jay (2020-01)
    Yield-Stress-Criteria to Assess the Buildability of 3D Concrete Printing
  18. Kazemian Ali, Yuan Xiao, Cochran Evan, Khoshnevis Behrokh (2017-04)
    Cementitious Materials for Construction-Scale 3D Printing:
    Laboratory Testing of Fresh Printing Mixture
  19. Khoshnevis Behrokh (2003-11)
    Automated Construction by Contour Crafting:
    Related Robotics and Information Technologies
  20. Khoshnevis Behrokh, Dutton Rosanne (1998-01)
    Innovative Rapid Prototyping Process Makes Large-Sized, Smooth-Surfaced Complex Shapes in a Wide Variety of Materials
  21. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Hardened Properties of High-Performance Printing Concrete
  22. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Mix-Design and Fresh Properties for High-Performance Printing Concrete
  23. Li Zhanzhao, Hojati Maryam, Wu Zhengyu, Piasente Jonathon et al. (2020-07)
    Fresh and Hardened Properties of Extrusion-Based 3D Printed Cementitious Materials:
    A Review
  24. Li Leo, Xiao Bofeng, Fang Z., Xiong Z. et al. (2020-11)
    Feasibility of Glass-Basalt Fiber-Reinforced Seawater Coral Sand Mortar for 3D Printing
  25. Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
    Developments in Construction-Scale Additive Manufacturing Processes
  26. Lim Jian, Panda Biranchi, Pham Quang-Cuong (2018-05)
    Improving Flexural Characteristics of 3D Printed Geopolymer Composites with In-Process Steel-Cable-Reinforcement
  27. Liu Xiongfei, Li Qi, Li Jixiang (2022-04)
    Shrinkage and Mechanical Properties Optimization of Spray-Based 3D Printed Concrete by PVA-Fiber
  28. Liu Bing, Liu Xiaoyan, Li Guangtao, Geng Songyuan et al. (2022-09)
    Study on Anisotropy of 3D Printing PVA-Fiber-Reinforced Concrete Using Destructive and Non-Destructive Testing Methods
  29. Liu Chao, Zhang Rongfei, Liu Huawei, He Chunhui et al. (2021-11)
    Analysis of the Mechanical Performance and Damage Mechanism for 3D Printed Concrete Based on Pore-Structure
  30. Lu Bing, Weng Yiwei, Li Mingyang, Qian Ye et al. (2019-02)
    A Systematical Review of 3D Printable Cementitious Materials
  31. Ma Guowei, Li Zhijian, Wang Li (2017-12)
    Printable Properties of Cementitious Material Containing Copper-Tailings for Extrusion-Based 3D Printing
  32. Ma Lei, Zhang Qing, Lombois-Burger Hélène, Jia Zijian et al. (2022-09)
    Pore-Structure, Internal Relative Humidity, and Fiber-Orientation of 3D Printed Concrete with Polypropylene-Fiber and Their Relation with Shrinkage
  33. Menna Costantino, Mata-Falcón Jaime, Bos Freek, Vantyghem Gieljan et al. (2020-04)
    Opportunities and Challenges for Structural Engineering of Digitally Fabricated Concrete
  34. Muthukrishnan Shravan, Ramakrishnan Sayanthan, Sanjayan Jay (2021-06)
    Technologies for Improving Buildability in 3D Concrete Printing
  35. Nair Sooraj, Tripathi Avinaya, Neithalath Narayanan (2021-09)
    Examining Layer-Height Effects on the Flexural and Fracture Response of Plain and Fiber-Reinforced 3D Printed Beams
  36. Nguyen Vuong, Nguyen-Xuan Hung, Panda Biranchi, Tran Jonathan (2022-03)
    3D Concrete Printing Modelling of Thin-Walled Structures
  37. 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
  38. Panda Biranchi, Lim Jian, Tan Ming (2019-02)
    Mechanical Properties and Deformation Behavior of Early-Age Concrete in the Context of Digital Construction
  39. Panda Biranchi, Paul Suvash, Tan Ming (2017-07)
    Anisotropic Mechanical Performance of 3D Printed Fiber-Reinforced Sustainable Construction-Material
  40. Perrot Arnaud, Pierre Alexandre, Nerella Venkatesh, Wolfs Robert et al. (2021-07)
    From Analytical Methods to Numerical Simulations:
    A Process Engineering Toolbox for 3D Concrete Printing
  41. Salet Theo, Ahmed Zeeshan, Bos Freek, Laagland Hans (2018-05)
    Design of a 3D Printed Concrete Bridge by Testing
  42. Singh Amardeep, Liu Qiong, Xiao Jianzhuang, Lyu Qifeng (2022-02)
    Mechanical and Macrostructural Properties of 3D Printed Concrete Dosed with Steel-Fibers under Different Loading-Direction
  43. Souza Marcelo, Ferreira Igor, Moraes Elisângela, Senff Luciano et al. (2020-09)
    3D Printed Concrete for Large-Scale Buildings:
    An Overview of Rheology, Printing Parameters, Chemical Admixtures, Reinforcements, and Economic and Environmental Prospects
  44. Suiker Akke (2018-01)
    Mechanical Performance of Wall Structures in 3D Printing Processes:
    Theory, Design Tools and Experiments
  45. Sukontasukkul Piti, Panklum Kasidet, Maho Buchit, Banthia Nemkumar et al. (2021-12)
    Effect of Synthetic Micro-Fiber and Viscosity-Modifying-Agent on Layer Deformation, Viscosity, and Open-Time of Cement Mortar for 3D Printing Application
  46. Sun Xiaoyan, Zhou Jiawei, Wang Qun, Shi Jiangpeng et al. (2021-11)
    PVA-Fiber-Reinforced High-Strength Cementitious Composite for 3D Printing:
    Mechanical Properties and Durability
  47. Tay Yi, Qian Ye, Tan Ming (2019-05)
    Printability-Region for 3D Concrete Printing Using Slump- and Slump-Flow-Test
  48. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  49. Zareiyan Babak, Khoshnevis Behrokh (2017-08)
    Effects of Interlocking on Inter-Layer Adhesion and Strength of Structures in 3D Printing of Concrete
  50. Zhang Xu, Li Mingyang, Lim Jian, Weng Yiwei et al. (2018-08)
    Large-Scale 3D Printing by a Team of Mobile Robots
  51. Zhang Yu, Zhang Yunsheng, Qian Rusheng, Liu Guojian et al. (2022-09)
    Influence of Steel-Fiber on the Water-Absorption of 3D Printed Concrete
  52. Zhu Binrong, Pan Jinlong, Nematollahi Behzad, Zhou Zhenxin et al. (2019-07)
    Development of 3D Printable Engineered Cementitious Composites with Ultra-High Tensile Ductility for Digital Construction

10 Citations

  1. Li Yeou-Fong, Lin Chih-Chieh, Syu Jin-Yuan, Huang Chih-Hong et al. (2025-10)
    Enhancing 3D-Printed Cement Mortar with Recycled PCB Glass Fibers:
    Printability, Mechanical Strength, and FEM-Based Structural Assessment
  2. Varghese Renny, Rangel Bárbara, Maia Lino (2025-10)
    Strength, Structure, and Sustainability in 3D-Printed Concrete Using Different Types of Fiber Reinforcements
  3. Jesus Manuel, Dias Ricardo, Teixeira João, Delgado João et al. (2025-09)
    Optimisation of 3D Printable Cement- and Lime-Based Mortars for Built Heritage Rehabilitation
  4. Maurya Shubham, Kumar Vijay, Panda Biranchi, Borsaikia Arun et al. (2025-09)
    Inline Polymer Cable Reinforcement in 3D Concrete Printing with a Special Nozzle
  5. Li Yeou-Fong, Liang Yu-Fang, Syu Jin-Yuan, Huang Chi-Hong et al. (2024-12)
    Static and Dynamic Mechanical Characteristics of 3D Printed Anisotropic Basalt Fiber-Reinforced Cement Mortar
  6. Luo Surong, Jin Wenhao, Wu Weihong, Zhang Kaijian (2024-11)
    Rheological and Mechanical Properties of Polyformaldehyde-Fiber-Reinforced 3D Printed High-Strength Concrete with the Addition of Fly-Ash
  7. Sousa Israel, Alessandro Antonella, Mesquita Esequiel, Laflamme Simon et al. (2024-11)
    Comprehensive Review of 3D Printed Cementitious Composites with Carbon Inclusions:
    Current Status and Perspective for Self-Sensing Capabilities
  8. Haripan Vislavath, Senthilnathan Shanmugaraj, Gettu Ravindra, Santhanam Manu et al. (2024-09)
    Open-Time and Extrudability-Performance-Analysis of 3D Printed Concrete with Recycled Concrete Fine Aggregates Using Rheological- and Computer-Vision-Techniques
  9. Sucharda Oldřich, Gandel Radoslav, Cmiel Petr, Jeřábek Jan et al. (2024-07)
    Utilization of High-Performance Concrete Mixtures for Advanced Manufacturing Technologies
  10. Jiang Xiongzhi, Li Yujia, Yang Zhe, Li Yangbo et al. (2024-02)
    Harnessing Path-Optimization to Enhance the Strength of Three-Dimensional Printed Concrete

BibTeX 
@article{li_tsai_syu_lok.2023.MPo3PCFRCM,
  author            = "Yeou-Fong Li and Pei-Jen Tsai and Jin-Yuan Syu and Man-Hoi Lok and Huei-Shiung Chen",
  title             = "Mechanical Properties of 3D Printed Carbon Fiber-Reinforced Cement Mortar",
  doi               = "10.3390/fib11120109",
  year              = "2023",
  journal           = "Fibers",
  volume            = "11",
  number            = "12",
  pages             = "109",
}
Formatted Citation

Y.-F. Li, P.-J. Tsai, J.-Y. Syu, M.-H. Lok and H.-S. Chen, “Mechanical Properties of 3D Printed Carbon Fiber-Reinforced Cement Mortar”, Fibers, vol. 11, no. 12, p. 109, 2023, doi: 10.3390/fib11120109.

Li, Yeou-Fong, Pei-Jen Tsai, Jin-Yuan Syu, Man-Hoi Lok, and Huei-Shiung Chen. “Mechanical Properties of 3D Printed Carbon Fiber-Reinforced Cement Mortar”. Fibers 11, no. 12 (2023): 109. https://doi.org/10.3390/fib11120109.