Study on Printability of 3D Printing Carbon-Fiber-Reinforced Eco-Friendly Concrete (2024-08)¶
Xu Wen, Jiang Dengjie, Zhao Qian, Wang Linbing
Journal Article - Case Studies in Construction Materials, No. e03589
Abstract
Carbon fibers have often been added to concrete as reinforcement. Eco-friendly concrete with industrial by-products has been widely studied and applied as green building materials. Studying the workability and printability of eco-friendly concrete with carbon fibers is worthwhile. The workability and printability of eco-friendly concrete are dominating factors that ensure that printing can be carried out smoothly. This study uses a combination of experiments and numerical simulations to study the printing performance of carbon fiber-reinforced eco-friendly concrete (CFREFC). The workability and printability of 9 mixes of 3D printing CFREFC under various combinations of different water-binder (w/b) ratio levels and superplasticizer (SP) dosages were tested. Two methods, namely the consistency and fluidity tests, were used to characterize the printability. After consistency and mortar fluidity tests, the 9 mixtures were printed to get the printing performance. Finally, the relationship between the workability and printability of 3D printing CFREFC was established. The condition numbered M7 (w/b=0.4, SP=0.5) in the selected experimental group was used as the source of its simulation parameter. The result shows that it is feasible to characterize printability using workability, i.e., consistency and fluidity, which increase with the increase of w/b and SP dosage. Under the printing parameters of the HC1008 printer were determined, i.e., 20 mm of nozzle size, 50 mm/s of printing speed, 30 rpm of material extrusion speed, and 14 mm layer height, the fresh CFREFC was not suitable for 3DP application when its consistency is less than 48.99 mm and more than 81.96 mm, or when its fluidity is less than 166.72 mm and more than 200.93 mm. When the consistency is from 56.34 to 65.61 mm, and the fluidity is from 172.18 to 183.30 mm, the printability of CFREFC is the best under the same printing parameters. The simulation results indicated that with the increased number of printing layers, the bottom of the printed model would be deformed by the gradual increase in pressure, and a specific height loss would occur, which was consistent with the experimental results.
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26 References
- Bos Freek, Menna Costantino, Pradena Mauricio, Kreiger Eric et al. (2022-03)
The Realities of Additively Manufactured Concrete Structures in Practice - Chen Yidong, Zhang Wenhua, Zhang Yunsheng, Zhang Yu et al. (2023-03)
3D Printed Concrete with Coarse Aggregates:
Built-In-Stirrup Permanent Concrete Formwork for Reinforced Columns - Hambach Manuel, Volkmer Dirk (2017-02)
Properties of 3D Printed Fiber-Reinforced Portland-Cement-Paste - Jayathilakage Roshan, Rajeev Pathmanathan, Sanjayan Jay (2020-01)
Yield-Stress-Criteria to Assess the Buildability of 3D Concrete Printing - Ketel Sabrina, Falzone Gabriel, Wang Bu, Washburn Newell et al. (2018-04)
A Printability Index for Linking Slurry Rheology to the Geometrical Attributes of 3D Printed Components - Lafhaj Zoubeir, Rabenantoandro Andry, Moussaoui Soufiane, Dakhli Zakaria et al. (2019-12)
Experimental Approach for Printability-Assessment:
Toward a Practical Decision-Making Framework of Printability for Cementitious Materials - Liu Qiang, Jiang Quan, Zhou Zhenhua, Xin Jie et al. (2023-02)
The Printable and Hardened Properties of Nano-Calcium Carbonate with Modified Polypropylene-Fibers for Cement-Based 3D Printing - Liu Junli, Setunge Sujeeva, Tran Jonathan (2022-07)
3D Concrete Printing with Cement-Coated Recycled Crumb Rubber:
Compressive and Microstructural Properties - Liu Junli, Tran Jonathan, Nguyen Vuong, Gunasekara Chamila et al. (2023-06)
3D Printing of Cementitious Mortar with Milled Recycled Carbon-Fibers:
Influences of Filament Offset on Mechanical Properties - Long Wujian, Lin Can, Tao Jie-Lin, Ye Taohua et al. (2021-02)
Printability and Particle-Packing of 3D Printable Limestone-Calcined-Clay-Cement Composites - Nematollahi Behzad, Vijay Praful, Sanjayan Jay, Nazari Ali et al. (2018-11)
Effect of Polypropylene Fiber Addition on Properties of Geopolymers Made by 3D Printing for Digital Construction - Ogura Hiroki, Nerella Venkatesh, Mechtcherine Viktor (2018-08)
Developing and Testing of Strain-Hardening Cement-Based Composites (SHCC) in the Context of 3D Printing - 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 - Pan Tinghong, Jiang Yaqing, Ji Xuping (2022-03)
Inter-Layer Bonding Investigation of 3D Printing Cementitious Materials with Fluidity-Retaining Polycarboxylate-Superplasticizer and High-Dispersion Polycarboxylate Superplasticizer - Rahman Mahfuzur, Rawat Sanket, Yang Chunhui, Mahil Ahmed et al. (2024-05)
A Comprehensive Review on Fresh and Rheological Properties of 3D Printable Cementitious Composites - Soltan Daniel, Li Victor (2018-03)
A Self-Reinforced Cementitious Composite for Building-Scale 3D Printing - Tay Yi, Qian Ye, Tan Ming (2019-05)
Printability-Region for 3D Concrete Printing Using Slump- and Slump-Flow-Test - Uddin Md, Ye Junhong, Deng Boyu, Li Lingzhi et al. (2023-04)
Interpretable Machine Learning for Predicting the Strength of 3D Printed Fiber-Reinforced Concrete - Wang Li, Wang Fucheng, Li Rong, Wang Qiao (2023-12)
Interfacial Constitutive Model of 3D Printed Fiber-Reinforced Concrete Composites and Its Experimental Validation - Wolfs Robert, Bos Freek, Salet Theo (2018-02)
Early-Age Mechanical Behaviour of 3D Printed Concrete:
Numerical Modelling and Experimental Testing - Yang Yekai, Lu Pengyuan, Liu Zhongxian, Dong Liang et al. (2024-04)
Effect of Steel-Fiber with Different Orientations on Mechanical Properties of 3D Printed Steel-Fiber-Reinforced Concrete:
Meso-Scale Finite-Element-Analysis - Ye Junhong, Cui Can, Yu Jiangtao, Yu Kequan et al. (2021-01)
Fresh and Anisotropic-Mechanical Properties of 3D Printable Ultra-High-Ductile Concrete with Crumb-Rubber - Zaid Osama, Ouni Mohamed (2024-04)
Advancements in 3D Printing of Cementitious Materials:
A Review of Mineral Additives, Properties, and Systematic Developments - Zhou Boyu, Zhang Mo, Ma Guowei (2024-05)
An Experimental Study on 3D Printed Concrete Reinforced with Fibers Recycled from Wind Turbine Blades - Zhou Wen, Zhu He, Hu Wei-Hsiu, Wollaston Ryan et al. (2024-02)
Low-Carbon, Expansive Engineered Cementitious Composites (ECC) In the Context of 3D Printing - Zhu Ronghua, Egbe King-James, Salehi Hadi, Shi Zhongtian et al. (2024-01)
Eco-Friendly 3D Printed Concrete with Fine Aggregate Replacements:
Fabrication, Characterization and Machine Learning Prediction
4 Citations
- Ding Shengxuan, Li Jiren, Liu Yiming (2025-06)
Study on Mechanical Properties and Environmental Benefits of 3D Printed Lean Magnesium Ore Concrete Filled Columns Based on Three-Dimensional Meso-Structure - Dai Pengfei, Luo Zhenhua, Wang Yalun, Mbabazi Justin et al. (2025-06)
Waste Plastic Fiber Reinforced Cementitious Cavity Structures Manufactured by Mortar Extrusion 3D Printing - Mousavi Moein, Bengar Habib, Mousavi Fateme, Mahdavinia Pooneh et al. (2024-12)
Inter-Layer Bond Strength Prediction of 3D Printable Concrete Using Artificial Neural Network:
Experimental and Modeling Study - Seo Eun-A, Lee Hojae (2024-10)
Influence of Chemical Admixtures on Buildability and Deformation of Concrete for Additive Manufacturing
BibTeX
@article{xu_jian_zhao_wang.2024.SoPo3PCFREFC,
author = "Wen Xu and Dengjie Jiang and Qian Zhao and Linbing Wang",
title = "Study on Printability of 3D Printing Carbon-Fiber-Reinforced Eco-Friendly Concrete: Characterized by Fluidity and Consistency",
doi = "10.1016/j.cscm.2024.e03589",
year = "2024",
journal = "Case Studies in Construction Materials",
pages = "e03589",
}
Formatted Citation
W. Xu, D. Jiang, Q. Zhao and L. Wang, “Study on Printability of 3D Printing Carbon-Fiber-Reinforced Eco-Friendly Concrete: Characterized by Fluidity and Consistency”, Case Studies in Construction Materials, p. e03589, 2024, doi: 10.1016/j.cscm.2024.e03589.
Xu, Wen, Dengjie Jiang, Qian Zhao, and Linbing Wang. “Study on Printability of 3D Printing Carbon-Fiber-Reinforced Eco-Friendly Concrete: Characterized by Fluidity and Consistency”. Case Studies in Construction Materials, 2024, e03589. https://doi.org/10.1016/j.cscm.2024.e03589.