An alternative numerical approach is presented for the analysis of no–tension masonry–like solids. Whereas most of the strategies available in the literature resort to non–linear finite element techniques, the proposed approach re–formulates the problem within the framework of topology optimization. The equilibrium of a two–dimensional no–tension body is found searching for the distribution of an equivalent orthotropic material, in which tensile principal stresses are not allowed by prescribing negligible stiffness in the relevant direction, such that the potential energy of the solid is minimized. Unlike many conventional approaches that deal with the inherent non–linearity of the problem through step–wise incremental analyses, the proposed energy–based method efficiently solves the effect of compatible loads through a single optimization run. Analytical and numerical benchmarks fromthe literature are investigated to assess the effectiveness of the proposed procedure.

Analysis of no-tension bodies through a topology optimization approach

BRUGGI, MATTEO;TALIERCIO, ALBERTO;
2013-01-01

Abstract

An alternative numerical approach is presented for the analysis of no–tension masonry–like solids. Whereas most of the strategies available in the literature resort to non–linear finite element techniques, the proposed approach re–formulates the problem within the framework of topology optimization. The equilibrium of a two–dimensional no–tension body is found searching for the distribution of an equivalent orthotropic material, in which tensile principal stresses are not allowed by prescribing negligible stiffness in the relevant direction, such that the potential energy of the solid is minimized. Unlike many conventional approaches that deal with the inherent non–linearity of the problem through step–wise incremental analyses, the proposed energy–based method efficiently solves the effect of compatible loads through a single optimization run. Analytical and numerical benchmarks fromthe literature are investigated to assess the effectiveness of the proposed procedure.
2013
Atti del XXI Congresso AIMETA Associazione Italiana di Meccanica Teorica e Applicata
9788882391836
no-tension materials; topology optimization; orthotropic materials
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/748989
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