Interaction of reinforcement, process, and form in Digital Fabrication with Concrete

Harald Kloft; Bartłomiej Sawicki; Freek Bos; Robin Dörrie; Niklas Freund; Stefan Gantner; Lukas Gebhard; Norman Hack; Egor Ivaniuk; Jacques Kruger; Walter Kaufmann; Jaime Mata-Falcón; Viktor Mechtcherine; Ammar Mirjan; Rob Wolfs; Dirk Lowke

doi:10.1016/j.cemconres.2024.107640

Interaction of reinforcement, process, and form in Digital Fabrication with Concrete

Harald Kloft, Bartłomiej Sawicki, Freek Bos, Robin Dörrie, Niklas Freund, Stefan Gantner, Lukas Gebhard, Norman Hack, Egor Ivaniuk, Jacques Kruger, Walter Kaufmann, Jaime Mata-Falcón, Viktor Mechtcherine, Ammar Mirjan, Rob Wolfs, Dirk Lowke

Chair of Binder Jetting Technology

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Material, manufacturing process, and form are mutually dependent. In formwork-based concrete construction, the reinforcement must be positioned and fixed in the formwork, limiting material efficiency and freedom of form. In Digital Fabrication with Concrete (DFC), the formwork no longer limits the concrete forming process. Furthermore, the reinforcement no longer must be installed in advance, but can be placed before, during or after the concrete application. Therefore, the role of reinforcement and its interaction with processing must be fundamentally rethought in DFC. Furthermore, with reinforcement integration a concrete component expands from a contour-based shape into a structural form. The current paper proposes a new so-called RPF-framework expressing the interaction of reinforcement, process and form in DFC. The application of this framework is illustrated using current examples of DFC, whose structural forms are critically discussed. Finally, the need for a holistic approach to material, process and form in DFC is emphasised.

Original language	English
Article number	107640
Journal	Cement and Concrete Research
Volume	186
DOIs	https://doi.org/10.1016/j.cemconres.2024.107640
State	Published - Dec 2024

Keywords

3D concrete printing
Additive manufacturing in construction
Automated reinforcement processing
Digital fabrication with concrete
RPF-framework

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10.1016/j.cemconres.2024.107640

Cite this

Kloft, H., Sawicki, B., Bos, F., Dörrie, R., Freund, N., Gantner, S., Gebhard, L., Hack, N., Ivaniuk, E., Kruger, J., Kaufmann, W., Mata-Falcón, J., Mechtcherine, V., Mirjan, A., Wolfs, R., & Lowke, D. (2024). Interaction of reinforcement, process, and form in Digital Fabrication with Concrete. Cement and Concrete Research, 186, Article 107640. https://doi.org/10.1016/j.cemconres.2024.107640

@article{b52d94ef7f4040828dc769bd10ed01a5,

title = "Interaction of reinforcement, process, and form in Digital Fabrication with Concrete",

abstract = "Material, manufacturing process, and form are mutually dependent. In formwork-based concrete construction, the reinforcement must be positioned and fixed in the formwork, limiting material efficiency and freedom of form. In Digital Fabrication with Concrete (DFC), the formwork no longer limits the concrete forming process. Furthermore, the reinforcement no longer must be installed in advance, but can be placed before, during or after the concrete application. Therefore, the role of reinforcement and its interaction with processing must be fundamentally rethought in DFC. Furthermore, with reinforcement integration a concrete component expands from a contour-based shape into a structural form. The current paper proposes a new so-called RPF-framework expressing the interaction of reinforcement, process and form in DFC. The application of this framework is illustrated using current examples of DFC, whose structural forms are critically discussed. Finally, the need for a holistic approach to material, process and form in DFC is emphasised.",

keywords = "3D concrete printing, Additive manufacturing in construction, Automated reinforcement processing, Digital fabrication with concrete, RPF-framework",

author = "Harald Kloft and Bart{\l}omiej Sawicki and Freek Bos and Robin D{\"o}rrie and Niklas Freund and Stefan Gantner and Lukas Gebhard and Norman Hack and Egor Ivaniuk and Jacques Kruger and Walter Kaufmann and Jaime Mata-Falc{\'o}n and Viktor Mechtcherine and Ammar Mirjan and Rob Wolfs and Dirk Lowke",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = dec,

doi = "10.1016/j.cemconres.2024.107640",

language = "English",

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journal = "Cement and Concrete Research",

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Kloft, H, Sawicki, B, Bos, F, Dörrie, R, Freund, N, Gantner, S, Gebhard, L, Hack, N, Ivaniuk, E, Kruger, J, Kaufmann, W, Mata-Falcón, J, Mechtcherine, V, Mirjan, A, Wolfs, R & Lowke, D 2024, 'Interaction of reinforcement, process, and form in Digital Fabrication with Concrete', Cement and Concrete Research, vol. 186, 107640. https://doi.org/10.1016/j.cemconres.2024.107640

TY - JOUR

T1 - Interaction of reinforcement, process, and form in Digital Fabrication with Concrete

AU - Kloft, Harald

AU - Sawicki, Bartłomiej

AU - Bos, Freek

AU - Dörrie, Robin

AU - Freund, Niklas

AU - Gantner, Stefan

AU - Gebhard, Lukas

AU - Hack, Norman

AU - Ivaniuk, Egor

AU - Kruger, Jacques

AU - Kaufmann, Walter

AU - Mata-Falcón, Jaime

AU - Mechtcherine, Viktor

AU - Mirjan, Ammar

AU - Wolfs, Rob

AU - Lowke, Dirk

PY - 2024/12

Y1 - 2024/12

N2 - Material, manufacturing process, and form are mutually dependent. In formwork-based concrete construction, the reinforcement must be positioned and fixed in the formwork, limiting material efficiency and freedom of form. In Digital Fabrication with Concrete (DFC), the formwork no longer limits the concrete forming process. Furthermore, the reinforcement no longer must be installed in advance, but can be placed before, during or after the concrete application. Therefore, the role of reinforcement and its interaction with processing must be fundamentally rethought in DFC. Furthermore, with reinforcement integration a concrete component expands from a contour-based shape into a structural form. The current paper proposes a new so-called RPF-framework expressing the interaction of reinforcement, process and form in DFC. The application of this framework is illustrated using current examples of DFC, whose structural forms are critically discussed. Finally, the need for a holistic approach to material, process and form in DFC is emphasised.

AB - Material, manufacturing process, and form are mutually dependent. In formwork-based concrete construction, the reinforcement must be positioned and fixed in the formwork, limiting material efficiency and freedom of form. In Digital Fabrication with Concrete (DFC), the formwork no longer limits the concrete forming process. Furthermore, the reinforcement no longer must be installed in advance, but can be placed before, during or after the concrete application. Therefore, the role of reinforcement and its interaction with processing must be fundamentally rethought in DFC. Furthermore, with reinforcement integration a concrete component expands from a contour-based shape into a structural form. The current paper proposes a new so-called RPF-framework expressing the interaction of reinforcement, process and form in DFC. The application of this framework is illustrated using current examples of DFC, whose structural forms are critically discussed. Finally, the need for a holistic approach to material, process and form in DFC is emphasised.

KW - 3D concrete printing

KW - Additive manufacturing in construction

KW - Automated reinforcement processing

KW - Digital fabrication with concrete

KW - RPF-framework

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U2 - 10.1016/j.cemconres.2024.107640

DO - 10.1016/j.cemconres.2024.107640

M3 - Article

AN - SCOPUS:85203008991

SN - 0008-8846

VL - 186

JO - Cement and Concrete Research

JF - Cement and Concrete Research

M1 - 107640

ER -

Interaction of reinforcement, process, and form in Digital Fabrication with Concrete

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Keywords

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