Martin Kögl scite author profile

In this paper, a novel approach to the design of piezoelectric plate and shell actuators using topology optimization is described. A new piezoelectric material model PEMAP-P (piezoelectric material with penalization and polarization) is proposed, which is an extension of the SIMP (solid isotropic material with penalization) model used for elastic materials. In addition to the pseudo-density ρ 1 , which describes the 'amount' of piezoelectric material in each finite element, a new design variable ρ 2 is introduced for the polarization of the piezoelectric material. The optimization problem consists in distributing the piezoelectric actuators in such a way as to achieve a maximum output displacement in a given direction at a given point of the structure, while simultaneously minimizing the structural compliance. Sequential linear programming (SLP) is used to solve the optimization problem. Examples are given demonstrating the potential of the proposed approach for the optimal design of piezoelectric actuators for multi-layer plate and shell structures.

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Analysis of smart laminates using piezoelectric MITC plate and shell elements

Kögl

Bucalém

2005

Computers & Structures

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A family of piezoelectric MITC plate elements

Kögl

Bucalém

2005

Computers & Structures

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A boundary element method for transient piezoelectric analysis

Kögl

Gaul

2000

Engineering Analysis with Boundary Elements

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Martin Kögl

Boundary Element Methods for Engineers and Scientists

Topology optimization of smart structures: design of piezoelectric plate and shell actuators

Analysis of smart laminates using piezoelectric MITC plate and shell elements

A family of piezoelectric MITC plate elements

A boundary element method for transient piezoelectric analysis

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