Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Layout optimization of multi-component structures under static loads and random excitations
Highlights ► The multi-component structural optimization design is extended to the dynamic response design. ► The prestress introduced by static loads is taken into account in the dynamic response analysis. ► The sensitivity analysis expressions of dynamic response are simplified. ► The effect of objective function weights is revealed.
Abstract Integrated layout optimization of multi-component structures under static loads and random excitations is studied in this paper. Dynamic responses are obtained by using the mode superposition method, and the prestress effect introduced by the static loads is taken into account in the analyses of dynamic responses. Locations of embedded components and pseudo-densities related to supporting structure are chosen as design variables. Design sensitivities of the dynamic responses with respect to the pseudo-densities are analytically derived. The optimization algorithm GCMMA (Global Convergent Method of Moving Asymptotes algorithm) is used to minimize simultaneously the static strain energy and dynamic responses. Three numerical examples are presented to show the validity of the optimization procedure and its potential application in practical designs.
Layout optimization of multi-component structures under static loads and random excitations
Highlights ► The multi-component structural optimization design is extended to the dynamic response design. ► The prestress introduced by static loads is taken into account in the dynamic response analysis. ► The sensitivity analysis expressions of dynamic response are simplified. ► The effect of objective function weights is revealed.
Abstract Integrated layout optimization of multi-component structures under static loads and random excitations is studied in this paper. Dynamic responses are obtained by using the mode superposition method, and the prestress effect introduced by the static loads is taken into account in the analyses of dynamic responses. Locations of embedded components and pseudo-densities related to supporting structure are chosen as design variables. Design sensitivities of the dynamic responses with respect to the pseudo-densities are analytically derived. The optimization algorithm GCMMA (Global Convergent Method of Moving Asymptotes algorithm) is used to minimize simultaneously the static strain energy and dynamic responses. Three numerical examples are presented to show the validity of the optimization procedure and its potential application in practical designs.
Layout optimization of multi-component structures under static loads and random excitations
Qiao, Zhang (Autor:in) / Weihong, Zhang (Autor:in) / Jihong, Zhu (Autor:in) / Tong, Gao (Autor:in)
Engineering Structures ; 43 ; 120-128
09.05.2012
9 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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