Floor slabs comprise the majority of the mass of a building. One approach to reducing the use of materials is adaptive structures, in which external forces are counteracted by internal actuation. In the development of suitable actuation and associated actuator concepts for individual structural elements, such as floor slabs, there is a strong mutual influence between the actuation and actuator concept, meaning a clear separation between the tasks of the disciplines involved is not possible. Rather, a tight coordination as well as the identification of the mutual influence during the development process is necessary. A case study is used to analyze the dependencies for actuation and actuator concept development and to present them graphically. A condensation of the results results in a first approach for the interdisciplinary development of adaptive structural elements.
%0 Conference Paper
%1 bosch2023interdisziplinre
%A Bosch, Matthias
%A Nitzlader, Markus
%A Voigt, Michael
%A Bachmann, Matthias
%A Roth, Daniel
%A Binz, Hansgeorg
%A Blandini, Lucio
%A Kreimeyer, Matthias
%B Stuttgarter Symposium für Produktentwicklung SSP 2023: Tagungsband zur Konferenz, Stuttgart, 25. Mai 2023
%D 2023
%I Fraunhofer IAO
%K 2023 AT IKTD MPE PUK Tagungsbeitrag
%P 211-222
%R 10.18419/opus-13131
%T Interdisziplinäre Entwicklung einer adaptiven Geschossdecke als leichtes Tragwerkselement im Bauwesen
%U http://elib.uni-stuttgart.de/handle/11682/13150
%X Floor slabs comprise the majority of the mass of a building. One approach to reducing the use of materials is adaptive structures, in which external forces are counteracted by internal actuation. In the development of suitable actuation and associated actuator concepts for individual structural elements, such as floor slabs, there is a strong mutual influence between the actuation and actuator concept, meaning a clear separation between the tasks of the disciplines involved is not possible. Rather, a tight coordination as well as the identification of the mutual influence during the development process is necessary. A case study is used to analyze the dependencies for actuation and actuator concept development and to present them graphically. A condensation of the results results in a first approach for the interdisciplinary development of adaptive structural elements.
@inproceedings{bosch2023interdisziplinre,
abstract = {Floor slabs comprise the majority of the mass of a building. One approach to reducing the use of materials is adaptive structures, in which external forces are counteracted by internal actuation. In the development of suitable actuation and associated actuator concepts for individual structural elements, such as floor slabs, there is a strong mutual influence between the actuation and actuator concept, meaning a clear separation between the tasks of the disciplines involved is not possible. Rather, a tight coordination as well as the identification of the mutual influence during the development process is necessary. A case study is used to analyze the dependencies for actuation and actuator concept development and to present them graphically. A condensation of the results results in a first approach for the interdisciplinary development of adaptive structural elements.},
added-at = {2023-09-14T14:57:50.000+0200},
author = {Bosch, Matthias and Nitzlader, Markus and Voigt, Michael and Bachmann, Matthias and Roth, Daniel and Binz, Hansgeorg and Blandini, Lucio and Kreimeyer, Matthias},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2d11bab67cb2c99b55ff3170463cc065d/iktd_group},
booktitle = {Stuttgarter Symposium für Produktentwicklung SSP 2023: Tagungsband zur Konferenz, Stuttgart, 25. Mai 2023},
doi = {10.18419/opus-13131},
interhash = {f9bde4e1751cfbdafa803f649afa8af4},
intrahash = {d11bab67cb2c99b55ff3170463cc065d},
keywords = {2023 AT IKTD MPE PUK Tagungsbeitrag},
language = {English},
pages = {211-222},
publisher = {Fraunhofer IAO},
timestamp = {2023-10-04T09:49:01.000+0200},
title = {Interdisziplinäre Entwicklung einer adaptiven Geschossdecke als leichtes Tragwerkselement im Bauwesen},
url = {http://elib.uni-stuttgart.de/handle/11682/13150},
year = 2023
}