Design of piezoelectric transducers using topology optimization

Silva, Emilío Carlos Nelli; Kikuchi, Noboru

doi:10.1088/0964-1726/8/3/307

Cited by 148 publications

(92 citation statements)

References 21 publications

(61 reference statements)

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“…In the early research, we use a SIMP model to describe the normal material. However, considering the piezoelectric effect, we will use the PEMAP-P model proposed by Silva E C N, Kikuchi N [14], which is an extension of the SIMP. This model parameterizes the material coefficient matrices as follows:…”

Section: A Piezoelectric Materials With Penalization Modelmentioning

confidence: 99%

Topology Optimum Design of Piezoelectric Energy Harvesting Devices Using Two-Phase Piezoelectric Materials

Wan¹,

Zhang²,

Qin³

et al. 2017

Proceedings of the 2017 2nd International Conference on Modelling, Simulation and Applied Mathematics (MSAM2017)

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Abstract-The paper presents a two-phase FEM-based topology optimization for piezoelectric energy harvesting devices. The goal of this research is to improve energy conversion efficiency of the piezoelectric cantilevered plates as an energy harvesting device based on the piezoelectric effect when applied to external loads. Owing to the friability of piezoelectric material, the piezoelectric energy harvesting devices can contain both piezoelectric material and elastic material. Therefore, an alternative way to express the piezoelectric material property interpolation for two-phase materials structure has been proposed. With this method, the structure composed of two materials, including elastic material and piezoelectric material, is regarded as the design variable under the topology optimization formulation. It seems to be a more reasonable solution for the topology optimization of piezoelectric composite materials. The method of moving asymptotes (MMA) is used to update the design variables. The energy conversion efficiency is compared using a developed FEM-based optimization code to verify the performance of the proposed method. Some numerical examples are presented and investigated to verify the availability of the proposed method.

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Section: A Piezoelectric Materials With Penalization Modelmentioning

confidence: 99%

Topology Optimum Design of Piezoelectric Energy Harvesting Devices Using Two-Phase Piezoelectric Materials

Wan¹,

Zhang²,

Qin³

et al. 2017

Proceedings of the 2017 2nd International Conference on Modelling, Simulation and Applied Mathematics (MSAM2017)

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“…Li et al (2004) investigated the optimal design of the numbers and positions of actuators using a two-level GA. Nestorovic´and Trajkov (2013) and Qiu et al (2007) carried out optimal actuator and sensor placement for large flexible structures using H 2 and H N norms. A linear programming method was also used to investigate the topology optimization problem of piezoelectric actuators by Silva et al (1999) and Ko¨gl et al (2005).…”

Section: Introductionmentioning

confidence: 99%

Vibration control of two-connected piezoelectric flexible plate using nonlinear algorithm and T-S fuzzy controller

Qiu

Ling

Zhang

et al. 2014

Journal of Intelligent Material Systems and Structures

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This article focuses on the active vibration control of a kind of two-connected piezoelectric flexible plate. A finite element model of the connected plate integrated with distributed piezoelectric sensors and actuators is derived, including bending and torsional vibrations. In this model, two connected hinges are simplified as regular plate elements to facilitate the system. A modified optimization method based on the energy dissipation rate is used for the optimal placement of piezoelectric sensors and actuators. The bending and torsional vibrations of the two-connected plate can be decoupled on measurement and driving control, due to the appropriate placement of the lead zirconate titanate sensors and actuators. The proportional and derivative control, the proposed nonlinear controller, and T-S fuzzy control algorithms are applied to suppress the bending and torsional vibrations of the two-connected plate. The numerical simulation and experimental results demonstrate that the last two control algorithms can suppress the low-order bending and torsional vibration more effectively than that of the designed proportional and derivative control algorithm.

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“…Another general approach to optimally design smart structures is to simultaneously [10] or separately [11] optimize the actuator size. Finally, only a few studies consider the optimization of the shape of monolithic PZT actuators [12].…”

Section: Introductionmentioning

confidence: 99%

Redesign of the MMOC microgripper piezoactuator using a new topological optimization method

Grossard

Rotinat-Libersa

Chaillet

2007

2007 IEEE/ASME International Conference on Advanced Intelligent Mechatronics

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Abstract-This paper presents a new method developed for the optimal design of piezoactive compliant mechanisms. It is based on a flexible building blocks method, called FlexIn, which uses an evolutionary approach, to optimize a truss-like structure made of passive and active piezoelectric building blocks. An electromechanical approach, based on a mixed finite element method, is used to establish the model of the piezoelectric blocks. A planar monolithic compliant microactuator is synthesized by the optimization method, based on the specifications drawn from a piezoelectric microgripper prototype (MMOC). Finally, some performances comparisons between the optimally FlexIn synthetized gripper and the previous gripping system demonstrate the interests of the proposed optimization method for the design of microactuators, microrobots, and more generally for adaptronic structures.

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Design of piezoelectric transducers using topology optimization

Cited by 148 publications

References 21 publications

Topology Optimum Design of Piezoelectric Energy Harvesting Devices Using Two-Phase Piezoelectric Materials

Topology Optimum Design of Piezoelectric Energy Harvesting Devices Using Two-Phase Piezoelectric Materials

Vibration control of two-connected piezoelectric flexible plate using nonlinear algorithm and T-S fuzzy controller

Redesign of the MMOC microgripper piezoactuator using a new topological optimization method

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