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Construction of Smart Building Skins with Flow and Bend Splitted Products

Schäfer, Stefan and Ljubas, Ante and Abedini, Scholeh (2012):
Construction of Smart Building Skins with Flow and Bend Splitted Products.
In: Advanced Materials Research, Trans Tech Publications, ISSN 1022-6680, [Online-Edition: http://www.scientific.net/AMR],
[Article]

Item Type: Article
Erschienen: 2012
Creators: Schäfer, Stefan and Ljubas, Ante and Abedini, Scholeh
Title: Construction of Smart Building Skins with Flow and Bend Splitted Products
Language: English
Journal or Publication Title: Advanced Materials Research
Publisher: Trans Tech Publications
Uncontrolled Keywords: Sonderforschungsbereichs 666, SFB 666
Divisions: 13 Department of Civil and Environmental Engineering Sciences > Institute of Constructive Design and Building Construction
DFG-Collaborative Research Centres (incl. Transregio) > Collaborative Research Centres > CRC 666: Integral Sheet Metal Design with Higher Order Bifurcations
13 Department of Civil and Environmental Engineering Sciences > Institute of Solid Construction
13 Department of Civil and Environmental Engineering Sciences
Zentrale Einrichtungen
DFG-Collaborative Research Centres (incl. Transregio) > Collaborative Research Centres
DFG-Collaborative Research Centres (incl. Transregio)
Date Deposited: 25 Jan 2013 13:30
Official URL: http://www.scientific.net/AMR
Alternative Abstract:
Alternative abstract Language
Global energy price development causes a growing demand for energy efficient architectural building concepts. As a part of a systemic approach, smart building skins provide an option to reduce overall energy demands. In this regard, intelligent adaptivity of the building skin promotes environmental responsivity ensuring optimized energy use. Smart skins as ecotechnological environments are mostly produced with serialized and prefabricated elements. Advances in serialized pre-fabrication reduce costs in relation to structural complexity of smart skin designs. Integral potentials of flow and bend split components for adaptable façade structures are projected with an exemplified foldable structure defining a cost-effective production solution for smart skins. Integrated, experimental scripting methods, jointing and mechanizing techniques are applied for this first prototype.English
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