The paper discusses how adaptation of Automated Preforming (AP) technology for fabrication of customized profiles from flax textiles laminated with biobased resins may offer new structural design possibilities and prospects for increasing the use of biocomposites in architecture. As the fabrication process may offer specific customization options, their potential impact on the design possibilities are considered. The concept is validated through realization of a 1:1 structural demonstrator. Specific limitations imposed by the technology are reflected in the design decisions. The successful realization of the structure is the base for speculation about further steps regarding automation attempt and upscaling of the design.
%0 Book Section
%1 baszynski2022towards
%A Baszynski, Piotr
%A Dahy, Hanaa
%B Structures and Architecture A Viable Urban Perspective?
%D 2022
%I CRC Press
%K 2022 architecture baszynski bio-based biocomposite biomat dahy fibers flax itke preforms profile resin strctures textile
%P 117-124
%R 10.1201/9781003023555-15
%T Towards customized textile profile preforms made from flax fibers and biobased resin for the design of biocomposite structures
%U https://doi.org/10.1201%2F9781003023555-15
%X The paper discusses how adaptation of Automated Preforming (AP) technology for fabrication of customized profiles from flax textiles laminated with biobased resins may offer new structural design possibilities and prospects for increasing the use of biocomposites in architecture. As the fabrication process may offer specific customization options, their potential impact on the design possibilities are considered. The concept is validated through realization of a 1:1 structural demonstrator. Specific limitations imposed by the technology are reflected in the design decisions. The successful realization of the structure is the base for speculation about further steps regarding automation attempt and upscaling of the design.
%@ 9781003023555
@inbook{baszynski2022towards,
abstract = {The paper discusses how adaptation of Automated Preforming (AP) technology for fabrication of customized profiles from flax textiles laminated with biobased resins may offer new structural design possibilities and prospects for increasing the use of biocomposites in architecture. As the fabrication process may offer specific customization options, their potential impact on the design possibilities are considered. The concept is validated through realization of a 1:1 structural demonstrator. Specific limitations imposed by the technology are reflected in the design decisions. The successful realization of the structure is the base for speculation about further steps regarding automation attempt and upscaling of the design.},
added-at = {2024-11-25T14:35:43.000+0100},
author = {Baszynski, Piotr and Dahy, Hanaa},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/24bcd050fbd673c5ae75bd0927b69f53e/petraheim},
booktitle = {Structures and Architecture A Viable Urban Perspective?},
doi = {10.1201/9781003023555-15},
eventdate = {6-8 July 2022},
eventtitle = {5th International Conference on Structures and Architecture},
interhash = {7dc1239ed540ef86a28997a5fca165fb},
intrahash = {4bcd050fbd673c5ae75bd0927b69f53e},
isbn = {9781003023555},
keywords = {2022 architecture baszynski bio-based biocomposite biomat dahy fibers flax itke preforms profile resin strctures textile},
month = {July},
pages = {117-124},
publisher = {CRC Press},
timestamp = {2024-11-25T14:35:43.000+0100},
title = {Towards customized textile profile preforms made from flax fibers and biobased resin for the design of biocomposite structures},
url = {https://doi.org/10.1201%2F9781003023555-15},
venue = {Aalborg University},
year = 2022
}
