Review on the use of piezoelectric materials for active vibration, noise, and flow control

Shivashankar, P.; Gopalakrishnan, S.

doi:10.1088/1361-665x/ab7541

Cited by 138 publications

(57 citation statements)

References 410 publications

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“…Recently, Boeing has installed an SMA torque tube within aircraft flight test hardware [30], while NASA tested in flight SMA-actuated foldable wings, [31]. Moving from static to dynamic applications, piezoelectric materials may represent good alternatives to some common solutions, as shown on different class of rotorcraft, [32]- [33].…”

Section: Technologymentioning

confidence: 99%

Status and Perspectives of Commercial Aircraft Morphing

Giuliani¹,

Dimino²,

Ameduri³

et al. 2021

Preprint

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In a previous paper, the authors dealt with the current showstoppers for morphing systems and with the reasons that have inhibited their commercial applicability. In this work, the authors ex-press a critical vision of the current status of the proposed architectures and the needs that should be accomplished to make them viable for installation onboard of commercial aircraft. The distinc-tion is essential because military and civil issues and necessities are very different, and both the solutions and difficulties to be overcome are widely diverse. Yet, still remaining in the civil seg-ment, there can be other differences, depending on the size of the aircraft, from large jets to com-muters or general aviation, in turn classifiable in tourism, acrobatic, ultralight and so on, each with their own peculiarities. Therefore, the paper wants to try to trace a common technology de-nominator, if possible, and envisage a future perspective of actual applications.

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Section: Technologymentioning

confidence: 99%

Status and Perspectives of Commercial Aircraft Morphing

Giuliani¹,

Dimino²,

Ameduri³

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

“…Piezoelectric, piezoresistive and capacitive accelerometers have resonant frequencies of tens of thousands of hertz due to their material and structure characteristics. Piezoelectric acceleration sensor has many advantages, such as low cost, availability in many forms and simplicity in handling and implementation but it also has the problems of low linearity and measurement accuracy caused by external excitation and piezoelectric material (Shivashankar and Gopalakrishnan, 2020; Pramanik and Arockiarajan, 2019). Capacitive acceleration sensor has the advantages of high sensitivity, zero frequency response and wide dynamic range, but it is easy to be interfered by the outside world and only suitable for low-frequency fields, such as seismic detection and geological exploration (Alessandro et al , 2019; Giacci et al , 2017).…”

Section: Introductionmentioning

confidence: 99%

Fiber Bragg grating based acceleration sensors: a review

Guo

Chen

et al. 2021

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Purpose The purpose of this study is to present the state of the art for fiber Bragg grating (FBG) acceleration sensing technologies from two aspects: the principle of the measurement dimension and the principle of the sensing configuration. Some commercial sensors have also been introduced and future work in this field has also been discussed. This paper could provide an important reference for the research community. Design/methodology/approach This review is to present the state of the art for FBG acceleration sensing technologies from two aspects: the principle of the measurement dimension (one-dimension and multi-dimension) and the principle of the sensing configuration (beam type, radial vibration type, axial vibration type and other composite structures). Findings The current research on developing FBG acceleration sensors is mainly focused on the sensing method, the construction and design of the elastic structure and the design of a new information detection method. This paper hypothesizes that in the future, the following research trends will be strengthened: common single-mode fiber grating of the low cost and high utilization rate; high sensitivity and strength special fiber grating; multi-core fiber grating for measuring single-parameter multi-dimensional information or multi-parameter information; demodulating equipment of low cost, small volume and high sampling frequency. Originality/value The principle of the measurement dimension and principle of the sensing configuration for FBG acceleration sensors have been introduced, which could provide an important reference for the research community.

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“…Piezoelectric materials have a wide range of applications, including vibration control (Shivashankar and Gopalakrishnan, 2020), vibration energy harvesting (Erturk and Inman, 2011; Safaei et al, 2019; Yang et al, 2018), sensing, etc. For vibration energy harvesting, most of the existing researches focus on increasing the output voltage and broadening the operational frequency range (Fang et al, 2020; Talib et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Design, modeling, and experiment of a multi-bifurcated cantilever piezoelectric energy harvester

Yang

Chen

et al. 2021

Journal of Intelligent Material Systems and Structures

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A multi-bifurcated cantilever piezoelectric energy harvester (BCPEH) is designed and verified to achieve a wide and adjustable response frequency band. The theoretical model is derived based on the Euler-Bernoulli beam theory and continuity boundary conditions to investigate the dynamic response of the BCPEH. The displacement frequency response function and the voltage frequency response function of the BCPEH are deduced based on the Galerkin method, and the theoretical results of a typical multi-bifurcated cantilever piezoelectric energy harvester, the Y-shaped BCPEH, are verified by the finite element method (FEM) and experiments. In addition, by comparing experimental output power of the Y-shaped BCPEH with that of the traditional cantilever-based piezoelectric energy harvester with the same mass of the bifurcated part at the beam-tip, it demonstrates that the Y-shaped BCPEH has a wider operational frequency band. Moreover, it is found that the Y-shaped BCPEH can be designed with an asymmetric configuration to adjust its response frequency distribution. The number of resonant frequencies and the output power of the asymmetric Y-shaped BCPEH are higher than that of the symmetric Y-shaped BCPEH. And the Y-shaped BCPEH has even better performance than L-shaped BCPEH. This study provides a new design concept for enhanced energy harvester.

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Review on the use of piezoelectric materials for active vibration, noise, and flow control

Cited by 138 publications

References 410 publications

Status and Perspectives of Commercial Aircraft Morphing

Status and Perspectives of Commercial Aircraft Morphing

Fiber Bragg grating based acceleration sensors: a review

Design, modeling, and experiment of a multi-bifurcated cantilever piezoelectric energy harvester

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