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Plastic behaviour and stability constraints in the shakedown analysis and optimal design of trusses

Kaliszky, S. / Logo, J.

A shakedown analysis and optimum shakedown design of elasto-plastic trusses under multi-parameter static loading are presented. To control the plastic behaviour of the truss, bounds on the complementary strain energy of the residual forces and on the residual displacements are applied and for the bars under compression critical stresses updated during the iteration are taken into consideration. The formulation of problems is suitable for nonlinear mathematical programming which is solved by the use of an iterative procedure. The application of the method is illustrated by three test examples.

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Plastic behaviour and stability constraints in the shakedown analysis and optimal design of trusses

Kaliszky, S. / Logo, J.

A shakedown analysis and optimum shakedown design of elasto-plastic trusses under multi-parameter static loading are presented. To control the plastic behaviour of the truss, bounds on the complementary strain energy of the residual forces and on the residual displacements are applied and for the bars under compression critical stresses updated during the iteration are taken into consideration. The formulation of problems is suitable for nonlinear mathematical programming which is solved by the use of an iterative procedure. The application of the method is illustrated by three test examples.

Plastic behaviour and stability constraints in the shakedown analysis and optimal design of trusses

Kaliszky, S. / Logo, J.

A shakedown analysis and optimum shakedown design of elasto-plastic trusses under multi-parameter static loading are presented. To control the plastic behaviour of the truss, bounds on the complementary strain energy of the residual forces and on the residual displacements are applied and for the bars under compression critical stresses updated during the iteration are taken into consideration. The formulation of problems is suitable for nonlinear mathematical programming which is solved by the use of an iterative procedure. The application of the method is illustrated by three test examples.

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Title:

Plastic behaviour and stability constraints in the shakedown analysis and optimal design of trusses

Contributors:

Kaliszky, S. (author) / Logo, J. (author)

Published in:

Structural and Multidisciplinary Optimization ; 24 ; 118-124

Publication date:

2002

Size:

7 Seiten, 16 Quellen

ISSN:

DOI:

https://doi.org/10.1007/s00158-002-0222-2

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

Strukturanalyse , Fachwerkträger , Plastizität , Elastizität , Dehnungsmessung , Eigenspannung , Druckspannung , Iterationsverfahren , Druckprüfung , mathematische Programmierung , Verformungsenergie , Stabtragwerk , Stabilitätsbedingung

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