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Parametric evaluation of deployable scissor arches
Highlights Evaluation of design parameters on structural behaviour of scissor structures. Sensitivity analysis of height, span, thickness, number of units, and type parameter. Parametric structural study of 1980 deployable scissor arch cases. Analysis according to the requirements of the Eurocode design code. Definition of design guidelines for efficient (low mass) scissor structures.
Abstract In a dynamic and evolving society there is a need for temporary and mobile structures. For this, deployable scissor structures – structural mechanisms that can transform from a compact state to a fully deployed configuration – are suitable. However, this transformational capacity complicates the design process since there is a strong interaction between geometry, kinematic properties and structural response. In the conceptual design phase there is a need for more structural insight related to geometric aspects of deployable scissor structures. Toward this end, this research evaluates the influence of design parameters (height, span, structural thickness, number of units, and scissor type) on the structural behaviour (stress, deflection and mass) of scissor arches. A sensitivity analysis is first performed which determines the relative influence of each of these parameters. Then a comprehensive parametric structural study is performed to determine the best values for efficient (low mass) scissor systems. The result of this research is a set of guidelines to facilitate the design of competitive scissor structures and enhance further analysis and realisation.
Parametric evaluation of deployable scissor arches
Highlights Evaluation of design parameters on structural behaviour of scissor structures. Sensitivity analysis of height, span, thickness, number of units, and type parameter. Parametric structural study of 1980 deployable scissor arch cases. Analysis according to the requirements of the Eurocode design code. Definition of design guidelines for efficient (low mass) scissor structures.
Abstract In a dynamic and evolving society there is a need for temporary and mobile structures. For this, deployable scissor structures – structural mechanisms that can transform from a compact state to a fully deployed configuration – are suitable. However, this transformational capacity complicates the design process since there is a strong interaction between geometry, kinematic properties and structural response. In the conceptual design phase there is a need for more structural insight related to geometric aspects of deployable scissor structures. Toward this end, this research evaluates the influence of design parameters (height, span, structural thickness, number of units, and scissor type) on the structural behaviour (stress, deflection and mass) of scissor arches. A sensitivity analysis is first performed which determines the relative influence of each of these parameters. Then a comprehensive parametric structural study is performed to determine the best values for efficient (low mass) scissor systems. The result of this research is a set of guidelines to facilitate the design of competitive scissor structures and enhance further analysis and realisation.
Parametric evaluation of deployable scissor arches
Alegria Mira, L. (author) / Filomeno Coelho, R. (author) / Thrall, A.P. (author) / De Temmerman, N. (author)
Engineering Structures ; 99 ; 479-491
2015-05-08
13 pages
Article (Journal)
Electronic Resource
English
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