| id |
acadia22_58 |
| authors |
Anton, Ana; Skevaki, Eleni; Bischof, Patrick; Reiter, Lex; Dillenburger, Benjamin |
| year |
2022 |
| title |
Column-Slab Interfaces for 3D Concrete Printing |
| source |
ACADIA 2022: Hybrids and Haecceities [Proceedings of the 42nd Annual Conference of the Association of Computer Aided Design in Architecture (ACADIA) ISBN 979-8-9860805-8-1]. University of Pennsylvania Stuart Weitzman School of Design. 27-29 October 2022. edited by M. Akbarzadeh, D. Aviv, H. Jamelle, and R. Stuart-Smith. 58-67. |
| summary |
3D Concrete Printing (3DCP) currently dominates the scene of digital fabrication with concrete. 3DCP can be utilized on-site or in prefabrication setups. While prefabrication with 3DCP allows for more complex construction elements, it also requires the design for connections and assembly. In the context of prefabrication using 3DCP, this paper illustrates the state of research in the design, construction, and assembly of 3D printed components. It proposes segmentation and fabrication strategies to produce horizontal and vertical structural members of a column-slab building system following the typology of mushroom slabs. |
| series |
ACADIA |
| type |
paper |
| email |
|
| full text |
 file.pdf (6,502,343 bytes) |
| references |
Content-type: text/plain
|
A. Anton, A. Jipa, L. Reiter, and B. Dillenburger (2020)
 Fast Complexity: Additive Manufacturing for Prefabricated Concrete Slabs
, DigitalConcrete 2020; Paper Proceedings of the Second RILEM InternationalConference on Concrete and Digital Fabrication. Cham: Springer. 1067–77.
|
|
|
|
|
A. Anton, A. Yoo, P. Bedarf, L. Reiter, T. Wangler, and B. Dillenburger (2019)
Vertical Modulations:Computational Design for Concrete 3D Printed Columns
, ACADIA 2019: Ubiquity and Autonomy; PaperProceedings of the 39th Annual Conference of the Association forComputer Aided Design in Architecture (ACADIA). 596–605
|
|
|
|
|
A. Anton, L. Reiter, T. Wangler, V. Frangez, R. J. Flatt, and B. Dillenburger (2021)
A 3D Concrete Printing Prefabrication Platform for Bespoke Columns
, Automation in Construction 122: 103467
|
|
|
|
|
Alberto Bologna, and Roberto Gargiani (2016)
The Rhetoric of Pier Luigi Nervi Forms in Reinforced Concrete and Ferro-Cement
, Lausanne: EPFLPress
|
|
|
|
|
Aya Shaker, Noor Khader, Lex Reiter, and Ana Anton (2021)
3D Printed Concrete Tectonics: Assembly Typologies for Dry Joints
, ACADIA21: Realignments: Toward Critical Computation; Paper Proceedingsof the 40th Annual Conference of the Association for Computer AidedDesign in Architecture (ACADIA). 1–9
|
|
|
|
|
Battaglia, Christopher A., Martin Fields Miller, and Sasa Zivkovic (2019)
Sub-Additive 3D Printing of Optimized Double Curved Concrete Lattice Structures
, Robotic Fabrication in Architecture, Art and Design 2018. Cham: Springer
|
|
|
|
|
Behrokh Khoshnevis (2004)
Automated Construction By Contour Crafting; Related Robotics and Information Technologies
, Automation in Construction 13 (1): 5–19.
|
|
|
|
|
Freek Bos, Rob Wolfs, Zeeshan Ahmed, and Theo Salet (2019)
Large Scale Testing of Digitally Fabricated Concrete (DFC) Elements
, RILEM Bookseries. Cham: Springer. 129–47
|
|
|
|
|
G. Grasser, L. Pammer, H. Köll, E. Werner, and F. P. Bos (2020)
Complex Architecture in Printed Concrete: The Case of the Innsbruck University 350th Anniversary Pavilion COHESION
, Second RILEM InternationalConference on Concrete and Digital Fabrication. RILEM Bookseries, vol 28. Cham: Springer
|
|
|
|
|
Geert De Schutter, Karel Lesage, Viktor Mechtcherine, Venkatesh Naidu Nerella, Guillaume Habert, and Isolda Agusti-Juan (2018)
Vision of 3D Printing with Concrete — Technical, Economic and Environmental Potentials
, Cement and Concrete Research 112: 25–36
|
|
|
|
|
H. Van Damme (2018)
Concrete Material Science: Past, Present, and Future Innovations
, Cement and Concrete Research 112 (Oct): 5–24
|
|
|
|
|
Hans-Rudolf Ganz, and Jürg Fischer (2014)
SIA 262: Concrete Structures
, Concrete Structures Norms. Zurich: TEC 21
|
|
|
|
|
Henri Van Damme (2018)
Concrete Material Science: Past, Present, and Future Innovations
, Cement and Concrete Research 112
|
|
|
|
|
J. Mata-Falcón, P. Bischof, T. Huber, A. Anton, J. Burger, F. Ranaudo, A. Jipa, L. Gebhard, L. Reiter, E. Lloret-Fritschi, T. Van Mele, P. Block, F. Gramazio, M. Kohler, B. Dillenburger, T. Wangler, and W. Kaufmann (2022)
Digitally Fabricated Ribbed Concrete Floor Slabs: A Sustainable Solution for Construction
, RILEM Technical Letters 7: 68-78
|
|
|
|
|
Karen L. Scrivener, Vanderley M. John, and Ellis M. Gartner (2018)
Eco-Efficient Cements: Potential Economically Viable Solutions for a Low-CO2 Cement-Based Materials Industry
, Cement and ConcreteResearch 114: 2–26
|
|
|
|
|
L. Gebhard, P. Bischof, A. Anton, J. Mata-Falcón, B. Dillenburger, and W. Kaufmann (2022)
Pre-installed Reinforcement for 3D Concrete Printing
, Third RILEM International Conference on Concrete andDigital Fabrication. RILEM Bookseries, vol. 37. Cham: Springer
|
|
|
|
|
L. Reiter, A. Anton, T. Wangler, B. Dillenburger, and R. J. Flatt (2022)
A 3D Printing Platform for Reinforced Printed-Sprayed Concrete Composites
, Third RILEM International Conference on Concreteand Digital Fabrication. RILEM Bookseries, vol 37. Cham: Springer
|
|
|
|
|
Nadja Gaudilliere, Romain Duballet, Charles Bouyssou, Alban Mallet, Philippe Roux, Mahriz Zakeri, and Justin Dirrenberger (2019)
Large- Scale Additive Manufacturing of Ultra-High-Performance Concrete of Integrated Formwork for Truss-Shaped Pillars
, Robotic Fabricationin Architecture, Art and Design 2018. Cham: Springer. 459–72
|
|
|
|
|
Patrick Bischof, Jaime Mata-Falcón, and Walter Kaufmann (2022)
Fostering Innovative and Sustainable Mass-Market Construction Using Digital Fabrication with Concrete
, Cement and Concrete Research 161(Feb): 106948
|
|
|
|
|
Philippe Fleischmann, and Gonzalo Casas (2021)
COMPAS RRC
, v1.1.0Zenodo
|
|
|
|
| last changed |
2024/02/06 14:00 |
|
