A Process-Based Framework for Adaptable Modules in Robotic Clay 3D Printing (2024-02)¶
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Journal Article - International Journal of Architectural Computing, Vol. 22, Iss. 1, pp. 45-61
Abstract
Robotic Clay Printing (RCP) offers opportunities in sustainable architectural applications. This paper presents a framework to integrate locally sourced earth-based materials with robotic fabrication techniques while enhancing designer’s control over the process. The methodology involves two key steps: first, refining critical 3DP (3DP) control parameters to develop an informed toolpath algorithm. This algorithm grants designers’ direct control over factors like layer height and extrusion speed, enabling customization and ensuring structural integrity. Second, the framework is applied to design and RCP of an interlocking modular wall component system. Evaluation encompasses the impact of 3DP control parameters, informed toolpath planning, RCP performance, and assembly possibilities.
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12 References
- Buswell Richard, Silva Wilson, Jones Scott, Dirrenberger Justin (2018-06)
3D Printing Using Concrete-Extrusion:
A Roadmap for Research - Delgado Camacho Daniel, Clayton Patricia, Brien William, Seepersad Carolyn et al. (2018-02)
Applications of Additive Manufacturing in the Construction Industry:
A Forward-Looking Review - Gomaa Mohamed, Jabi Wassim, Veliz-Reyes Alejandro, Soebarto Veronica (2021-01)
3D Printing System for Earth-Based Construction:
Case Study of Cob - Hager Izabela, Golonka Anna, Putanowicz Roman (2016-08)
3D Printing of Buildings and Building Components as the Future of Sustainable Construction? - Khoshnevis Behrokh, Hwang Dooil, Yao Ke, Yeh Zhenghao (2006-05)
Mega-Scale Fabrication by Contour Crafting - Ko Chien-Ho (2021-06)
Constraints and Limitations of Concrete 3D Printing in Architecture - Kontovourkis Odysseas, Tryfonos George (2017-07)
Integrating Parametric Design with Robotic Additive Manufacturing for 3D Clay Printing:
An Experimental Study - Kontovourkis Odysseas, Tryfonos George (2019-11)
Robotic 3D Clay Printing of Prefabricated Non-Conventional Wall Components Based on a Parametric-Integrated Design - Lim Sungwoo, Buswell Richard, Le Thanh, Austin Simon et al. (2011-07)
Developments in Construction-Scale Additive Manufacturing Processes - Manikandan Karthick, Jiang Xuepeng, Singh Amit, Li Beiwen et al. (2020-06)
Effects of Nozzle Geometries on 3D Printing of Clay Constructs:
Quantifying Contour-Deviation and Mechanical Properties - Perrot Arnaud, Rangeard Damien, Courteille Eric (2018-04)
3D Printing of Earth-Based Materials:
Processing Aspects - Sangiorgio Valentino, Parisi Fabio, Fieni Francesco, Parisi Nicola (2022-01)
The New Boundaries of 3D-Printed Clay-Bricks-Design:
Printability of Complex Internal Geometries
2 Citations
- İlerisoy Zeynep, Takva Çağatay, Top Semahat, Gökgöz Berru et al. (2025-08)
The Effectiveness of 3D Concrete Printing Technology in Architectural Design:
Different Corner-Wall Combinations in 3D Printed Elements and Geometric Form Configurations in Residential Buildings - Giacomobono Leonardo, Argenti Maria, Ferretti Elena, Paparella Giulio (2024-08)
Three-Dimensional Printing with Earthen Materials:
A Settlement-Scale Design Experience
BibTeX
@article{gund_ozka.2024.APBFfAMiRC3P,
author = "Gamze Gündüz and Mine Özkar",
title = "A Process-Based Framework for Adaptable Modules in Robotic Clay 3D Printing",
doi = "10.1177/14780771231225698",
year = "2024",
journal = "International Journal of Architectural Computing",
volume = "22",
number = "1",
pages = "45--61",
}
Formatted Citation
G. Gündüz and M. Özkar, “A Process-Based Framework for Adaptable Modules in Robotic Clay 3D Printing”, International Journal of Architectural Computing, vol. 22, no. 1, pp. 45–61, 2024, doi: 10.1177/14780771231225698.
Gündüz, Gamze, and Mine Özkar. “A Process-Based Framework for Adaptable Modules in Robotic Clay 3D Printing”. International Journal of Architectural Computing 22, no. 1 (2024): 45–61. https://doi.org/10.1177/14780771231225698.