A simultaneous approach for compliance minimization and piezoelectric actuator design considering the polarization profile

Gonçalves, Juliano F.; Leon, Daniel M. De; Perondi, Eduardo André

doi:10.1002/nme.6211

Cited by 6 publications

(2 citation statements)

References 45 publications

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“…Lucinskis et al (2018) investigated two-dimensional polarised actuators experimentally with prototyped beams. Others have considered multioptimisation of the polarisation profile and structure of piezoelectric devices (Gonçalves et al 2020, Homayouni-Amlashi et al 2020a, 2020b. Homayouni-Amlashi et al (2020a) showed that multi-poled energy harvesters could be used to harvest energy that comes from excitation in different directions.…”

Section: Introductionmentioning

confidence: 99%

Novel properties of multi-poled piezoelectric network structures

Wegert

Roberts

Challis

2021

Smart Mater. Struct.

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We present the piezoelectric properties of multi-poled network microstructures based on cross, Gibson-Ashby and face-centred cubic base cells at a range of solid fractions and with different polarisation profiles. Piezoelectric properties are determined via computational homogenisation with the finite element method. Each polarisation profile is triple-poled, so it includes piezoelectric material poled in the x, y and z directions. The result of this is that the homogenised microstructures have fully non-zero piezoelectric coefficients and fully non-zero piezoelectric voltage constants. We show that the axial components of the effective voltage constant g 11 , g 22 , and g 33 can be vastly improved by ensuring struts are poled to match their orientation, so for example the piezoelectric material should be z-poled within a strut that is parallel to the z axis. We present novel extensions of commonly used figures of merit for single-poled piezoelectric materials that are relevant for the multi-poled case. We use these extended figures of merit to identify the network structures that have excellent piezoelectric properties for sensor and hydrophone applications. Furthermore, when varying the solid fraction of a given network microstructure, we show that the hydrostatic sensitivity of the meta-material increases as the acoustic impedance decreases. This property is unusual and near impossible to obtain using bulk material. Due to their highly sensitive piezoelectric response and full non-zero piezoelectric coefficients, such novel meta-materials could be utilised in next generation hydrophones, sensors, or other electromechanical devices.

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Section: Introductionmentioning

confidence: 99%

Novel properties of multi-poled piezoelectric network structures

Wegert

Roberts

Challis

2021

Smart Mater. Struct.

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“…Since then, the PEMAP-P model has been applied in different design problems. [25][26][27][28][29] The simultaneous optimization of control systems along with the structure has been grown in importance with the development of new materials. Hać and Liu, 30 proposed a measure based on the controllability Gramian matrix to maximize the performance of a control system.…”

Section: Introductionmentioning

confidence: 99%

A Controllability-Based TO Approach for the Piezoelectric Actuator Design Considering Multimodal Vibration Control

Gonçalves

Silva

Leon

et al. 2020

Int. J. Str. Stab. Dyn.

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This paper addresses the design problem of piezoelectric actuators for multimodal active vibration control. The design process is carried out by a topology optimization procedure which aims at maximizing a control performance index written in terms of the controllability Gramian, which is a measure that describes the ability of the actuator to move the structure from an initial condition to a desired final state in a finite time interval. The main work contribution is that independent sets of design variables are associated with each modal controllability index, then the multi-objective problem can be split into independent single-objective problems. Thus, no weighting factors are required to be tuned to give each vibration mode a suitable relevance in the optimization problem. A material interpolation scheme based on the Solid Isotropic Material with Penalization (SIMP) and the Piezoelectric Material with Penalization (PEMAP) models is employed to consider the different sets of design variables and the sensitivity analysis is carried out analytically. Numerical examples are presented by considering the design and vibration control for a cantilever beam and a beam fixed at both ends to show the efficacy of the proposed formulation. The control performance of the optimized actuators is analyzed using a Linear-Quadratic Regulator (LQR) simulation.

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Topology optimization research and simulation analysis of high-performance MEMS pressure sensor

Guo,

Shao,

et al. 2024

Microsyst Technol

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A simultaneous approach for compliance minimization and piezoelectric actuator design considering the polarization profile

Cited by 6 publications

References 45 publications

Novel properties of multi-poled piezoelectric network structures

Novel properties of multi-poled piezoelectric network structures

A Controllability-Based TO Approach for the Piezoelectric Actuator Design Considering Multimodal Vibration Control

Topology optimization research and simulation analysis of high-performance MEMS pressure sensor

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