Potential for the Integration of Continuous-Fiber-Based Reinforcements in Digital Concrete Production (2020-07)¶
, ,
Contribution - Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication, pp. 701-711
Abstract
While digital concrete production is a highly promising and vibrant research topic regarding an increase of the degree of automation in the construction industry, some critical questions remain unanswered. One of these challenging questions concerns the integration of reinforcement into the production process. In this paper, the authors present continuous fiber-based materials as a viable and promising alternative reinforcing material for the integration in digital concrete production. To this end, current approaches for the integration of reinforcement into digital concrete production are summarized. The production process of different continuous fiber-based materials is described and their application in textile reinforced concrete is explained. The authors also evaluate the feasibility of one specific approach to the integration of textiles into the digital concrete production process.
¶
4 References
- Bos Freek, Ahmed Zeeshan, Jutinov Evgeniy, Salet Theo (2017-11)
Experimental Exploration of Metal-Cable as Reinforcement in 3D Printed Concrete - Hack Norman, Lauer Willi (2014-04)
Mesh Mould:
Robotically Fabricated Spatial Meshes as Reinforced Concrete Formwork - Mechtcherine Viktor, Michel Albert, Liebscher Marco, Schneider Kai et al. (2019-11)
Mineral-Impregnated Carbon-Fiber Composites as Novel Reinforcement for Concrete Construction:
Material and Automation Perspectives - Wangler Timothy, Lloret-Fritschi Ena, Reiter Lex, Hack Norman et al. (2016-10)
Digital Concrete:
Opportunities and Challenges
12 Citations
- Tarhan İsmail, Tarhan Yeşim (2025-09)
Nonlinear In-Plane Response of 3D-Printed Concrete Walls with Varied Infill Patterns:
Experimental Mix Design and Numerical Structural Assessment - Tarhan Yeşim, Tarhan İsmail, Jacquet Yohan, Perrot Arnaud (2024-09)
Mechanical Behavior of 3D Printed and Textile-Reinforced Eco-Friendly Composites - Rothe Tom, Hühne Christian, Gantner Stefan, Hack Norman (2023-10)
Dynamic Winding Process of Individualized Fiber-Reinforcement Structures for Additive Manufacturing in Construction - Tarhan Yeşim, Perrot Arnaud (2023-08)
Reinforcement of 3D Printable Earth-Based Mortar with Natural Textile-Material - Yang Hui-Qin, Klug Christina, Schmitz Thomas (2023-06)
Fiber-Reinforced Clay:
An Exploratory Study on Automated Thread Insertion for Enhanced Structural Integrity in LDM. - Luo Surong, Lin Qian, Xu Wei, Wang Dehui (2023-03)
Effects of Interval Time and Interfacial Agents on the Mechanical Characteristics of Ultra-High-Toughness Cementitious Composites Under 3D Printed Technology - Giwa Ilerioluwa, Game Daniel, Ahmed Hassan, Noorvand Hassan et al. (2023-02)
Performance and Macrostructural Characterization of 3D Printed Steel-Fiber-Reinforced Cementitious Materials - Raphael Benny, Senthilnathan Shanmugaraj, Patel Abhishek, Bhat Saqib (2023-01)
A Review of Concrete 3D Printed Structural Members - Gantner Stefan, Rennen Philipp, Rothe Tom, Hühne Christian et al. (2022-06)
Core Winding:
Force-Flow-Oriented Fiber-Reinforcement in Additive Manufacturing with Concrete - Hojati Maryam, Memari Ali, Zahabi Mehrzad, Wu Zhengyu et al. (2022-06)
Barbed-Wire Reinforcement for 3D Concrete Printing - Scheurer Martin, Quenzel Philipp, Nölke Peter, Reuter‐Schniete Jonas et al. (2021-07)
Investigating the Feasibility of Using Carbon Fiber Tapes as Reinforcement for 3D Concrete Printing - Tarhan Yeşim, Craveiro Flávio, Bártolo Helena (2021-05)
An Effective Solution for Reinforcing 3D Concrete Printable Composites
BibTeX
@inproceedings{sche_ditt_grie.2020.PftIoCFBRiDCP,
author = "Martin Scheurer and Gözdem Dittel and Thomas Gries",
title = "Potential for the Integration of Continuous-Fiber-Based Reinforcements in Digital Concrete Production",
doi = "10.1007/978-3-030-49916-7_70",
year = "2020",
volume = "28",
pages = "701--711",
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
M. Scheurer, G. Dittel and T. Gries, “Potential for the Integration of Continuous-Fiber-Based Reinforcements in Digital Concrete Production”, in Proceedings of the 2nd RILEM International Conference on Concrete and Digital Fabrication: Digital Concrete 2020, 2020, vol. 28, pp. 701–711. doi: 10.1007/978-3-030-49916-7_70.
Scheurer, Martin, Gözdem Dittel, and Thomas Gries. “Potential for the Integration of Continuous-Fiber-Based Reinforcements in Digital Concrete Production”. 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, 28:701–11, 2020. https://doi.org/10.1007/978-3-030-49916-7_70.