%0 Conference Paper %1 akgun_novel_2010 %A Akgün, Yenal %A Gantes, Charis J. %A Sobek, Werner %A Korkmaz, Koray %A Kalochairetis, Konstantinos E. %B Spatial Structures - Temporary and Permanent, IASS Symposium, November 8-12, 2010, Shanghai, China %C Beijing %D 2010 %E Zhang, Qilin %I China Architecture & Building Press %K convertible deployable kinetic roofs scissor-hinge sobek structures, %P 2461--2474 %T A novel transformation model for deployable scissor-hinge structural mechanisms %X The primary objective of this paper is to propose a novel analytical design and implementation framework for deployable scissor-hinge structures which can offer a wide range of form flexibility. When the current research on deployable structures is investigated, it can be observed that most of these structures have predefined open and closed body forms; and transformations occurs between these two forms by using one of the various transformation types such as sliding, deploying, and folding. Thus, these examples are insufficient to constitute real form flexibility. To alleviate this deficiency, this paper introduces a novel scissor-hinge structural mechanism (SSM) which can transform between planar rectilinear geometries and spatial double-curved shapes without changing the size of the covered area. This novel structural mechanism has both planar and spatial versions, and to achieve such kind of form flexibility, it incorporates a new primary element called modified scissor-like element (M-SLE) and a new connection type for the spatial systems. Thus, it becomes possible to transform the geometry of the whole system without changing the span length. In the paper, first, properties of common scissor-hinge systems are summarized. Then, the proposed planar SSM, its primary elements, transformation and structural capability, are explained. Finally, the proposed spatial SSM, which is derived from its planar counterpart, its primary elements, novel connection type, transformation and structural capability are thoroughly investigated. %@ 978-7-112-12504-3

@inproceedings{akgun_novel_2010, abstract = {The primary objective of this paper is to propose a novel analytical design and implementation framework for deployable scissor-hinge structures which can offer a wide range of form flexibility. When the current research on deployable structures is investigated, it can be observed that most of these structures have predefined open and closed body forms; and transformations occurs between these two forms by using one of the various transformation types such as sliding, deploying, and folding. Thus, these examples are insufficient to constitute real form flexibility. To alleviate this deficiency, this paper introduces a novel scissor-hinge structural mechanism (SSM) which can transform between planar rectilinear geometries and spatial double-curved shapes without changing the size of the covered area. This novel structural mechanism has both planar and spatial versions, and to achieve such kind of form flexibility, it incorporates a new primary element called modified scissor-like element (M-SLE) and a new connection type for the spatial systems. Thus, it becomes possible to transform the geometry of the whole system without changing the span length. In the paper, first, properties of common scissor-hinge systems are summarized. Then, the proposed planar SSM, its primary elements, transformation and structural capability, are explained. Finally, the proposed spatial SSM, which is derived from its planar counterpart, its primary elements, novel connection type, transformation and structural capability are thoroughly investigated.}, added-at = {2023-11-27T15:10:57.000+0100}, address = {Beijing}, author = {Akgün, Yenal and Gantes, Charis J. and Sobek, Werner and Korkmaz, Koray and Kalochairetis, Konstantinos E.}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2f04519a8e0f6554a84e7fdb1e7b187d2/jmueller}, booktitle = {Spatial {Structures} - {Temporary} and {Permanent}, {IASS} {Symposium}, {November} 8-12, 2010, {Shanghai}, {China}}, editor = {Zhang, Qilin}, interhash = {6764921d1f8741de9a27174d1a4dcb6a}, intrahash = {f04519a8e0f6554a84e7fdb1e7b187d2}, isbn = {978-7-112-12504-3}, keywords = {convertible deployable kinetic roofs scissor-hinge sobek structures,}, pages = {2461--2474}, publisher = {China Architecture \& Building Press}, timestamp = {2023-11-27T15:10:57.000+0100}, title = {A novel transformation model for deployable scissor-hinge structural mechanisms}, year = 2010 }