| id |
sigradi2021_88 |
| authors |
Evrim, Berfin |
| year |
2021 |
| title |
Hybrid Carbon Fiber and Jute Fiber Textile Bone Stool: Integrative Fabrication Method of Weaving and 3D Printing |
| source |
Gomez, P and Braida, F (eds.), Designing Possibilities - Proceedings of the XXV International Conference of the Ibero-American Society of Digital Graphics (SIGraDi 2021), Online, 8 - 12 November 2021, pp. 629–641 |
| summary |
The structural properties of Fiber Reinforced Polymers (FRP) encourage designers and architects to use textiles as a load-bearing architectural material to create lightweight and strong structures. Manufacturing techniques of FRPs are mostly concentrated on the molding method. This method requires an extra mold fabrication that causes waste of material. This study focuses on integrative weaving and 3D printing fabrication methods, which emphasize the lightweight property of the material. This integrative method avoids excessive material waste during fabrication by using an additive approach. 3D printing on textiles prevents significant deformation in a specific direction of the fabric instead of using any kind of synthetic resin for stiffening the fabric. Additionally, structural behavior simulation allows designers to understand the different loading conditions and maximize the strengths of each textile design by adding more material where it is needed for possible architectural applications. |
| keywords |
Stool Design, Bone Analysis, Textile Load Simulation, Weaving, 3D Printing |
| series |
SIGraDi |
| email |
|
| full text |
 file.pdf (1,468,211 bytes) |
| references |
Content-type: text/plain
|
Aakash, A., Nasir, M. A., Khalid, M. Y., Nauman, S., Shaker K., Khushnood S., Altaf K., Zeeshan M., & Hussain, A. (2019)
 Experimental and Numerical Characterization of Mechanical Properties of carbon/jute Fabric Reinforced Epoxy Hybrid Composites
, Journal of Mechanical Science and Technology 33 (9): 4217-4226
|
|
|
|
|
Iida,H., Fujishima, T., Ohbuchi, Y.,& Sakamoto, H. (2014)
Application of New Design Method by High-Strength Composite Material
, Applied Mechanics and Materials 607: 915-919
|
|
|
|
|
Kycia, A., & Guiducci, L. (2020)
A material platform for digitally designed, material-informed surface elements
, L. Werner,& D. Koering,(Eds.), Proceedings of the 38th eCAADe Conference (pp. 21-30), TU Berlin, Berlin, Germany
|
|
|
|
|
Martínez, J., Song, H., Dumas J., & Lefebvre, S. (2017)
Orthotropic k -Nearest Foams for Additive Manufacturing
, ACM Transactions on Graphics (TOG) 36 (4): 1-12
|
|
|
|
|
Nan, I. C., Patterson, C., & Pedreschi, R. (2019)
Emerging Territories of Digital Material Practice
, RTD2017 Proceedings of the 3rd Biennial Research Through Design Conference RTD. https://doi.org/10.6084/m9.figshare.4747000.v1
|
|
|
|
|
Oxman, N. (2010)
Structuring Materiality: Design Fabrication of Heterogeneous Materials
, Architectural Design 80 (4): 78-85
|
|
|
|
|
Wang, X., Tam, K.-M. M., Beaudouin-Mackay, A., Hoyle, B., Mason, M., Guo, Z., Gao, W., Li, C., Zhu, W., Karsan, Z., Kao, G. T.-C., Zhang, L., Chai, H., Yuan, P. F., & Block, P. (2020)
3d-Printed Bending-Active Formwork for Shell Structures
, P. F. Yuan, M. Xie, N. Leach, J. Yao, & X. Wang (Eds.), Architectural Intelligence: Selected Papers from the 1st International Conference on Computational Design and Robotic Fabrication (CDRF 2019) (pp. 295–314). Springer Singapore. https://doi.org/10.1007/978-981-15-6568-7_18
|
|
|
|
| last changed |
2022/05/23 12:11 |
|
