Numerical realization of a semi-active virtual acoustic black hole effect

Soleimanian, Sina; Petrone, Giuseppe; Franco, Francesco; Rosa, Sergio De; Kołakowski, Przemysław

doi:10.3389/fmech.2023.1126489

Cited by 2 publications

(5 citation statements)

References 41 publications

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“…In these papers, a large number of piezoelectric devices were used to digitally and gradually modify the beam's Young modulus. In the same spirit, Soleimanian et al [23] reproduced the variations in ABH thickness with successive capacitors, which led to a maximum of 11% power radiation reduction in numerical simulations. Recently, we proposed the concept of a virtual ABH (VABH) where the mechanical ABH impedance, derived with a state-space approach [24], is simulated digitally.…”

Section: Introductionmentioning

confidence: 85%

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Realization of an autonomous virtual acoustic black hole with piezoelectric patches

Quaegebeur,

Raze,

Cheng

et al. 2024

Smart Mater. Struct.

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Acoustic black holes (ABHs) offer new opportunities for designing mechanical devices that can trap and reduce the vibrational energy of a system. This paper proposes the digital realization of the ABH effect, also called virtual ABH (VABH), through piezoelectric patches. A self-contained and autonomous reduction vibration device is thus developed. However, piezoelectric VABHs raise theoretical and experimental difficulties which are discussed herein. An improved pseudo-collocated approach is proposed, and the synthetic impedance is theoretically derived. Experiments are conducted using a cantilever beam where the VABH is implemented with few piezoelectric patches. It is shown to provide excellent vibration reduction over a large frequency range. The herein presented original concept solves the two long-lasting challenges of mechanical ABHs, i.e, its manufacturing and inability to operate at low frequencies, making it highly attractive for applications on real-life structures.

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Section: Introductionmentioning

confidence: 85%

“…where α u and α ϕ represent the projected modes α on the coupling matrix Θ when only the u and ϕ components are retained, respectively. Substituting these relations in (23) and expressing η as a function of V a gives…”

Section: Discussionmentioning

confidence: 99%

Realization of an autonomous virtual acoustic black hole with piezoelectric patches

Quaegebeur,

Raze,

Cheng

et al. 2024

Smart Mater. Struct.

View full text Add to dashboard Cite

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“…To figure out the bending and contact stress for material selection, the load and torque requirements are planned to be defined at the beginning. The diametral pitch and gear ratio need to be designed for further calculation using equations ( 1) and (2).…”

Section: Gearsmentioning

confidence: 99%

“…For equation (1), N is the number of teeth and D is the pitch diameter. For equation (2), NG is the teeth number of gear and NP is the teeth number of pinion.…”

Section: Gearsmentioning

confidence: 99%

“…The transmission is widely applied in the vehicle manufacturing industry and power delivery industry. For the common commercial car and heavy-duty vehicle, the transmission system can be applied to change the speed and torque between the input engine and output shaft [2]. A belt/chain structure is one of the common solutions for the transmission.…”

Section: Introductionmentioning

confidence: 99%

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Common transmission theory and wide application

Liu

2024

TNS

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Gear and belts/chains are the most common solution for modern mechanical devices. The allowable stress and gear ratio are two of the main factors that decide the performance of the ear section for transmission. The allowable stress can be calculated by bending stress and contact stress from design criteria. The performance of the belt solution is decided by the belt/chain material, center distance and the belt length. The allowable strength of the belt/chain solution is strongly related to the materials selected. With the current study of belts and gears, the related factors could be calculated to design the optimum shape and material. Dual clutch transmission (DCT) and continuously variable transmission (CVT) are two widely applied transmissions with gear and belt/chain solutions that are introduced in the research. The advantages of DCT could be the reliability and high transmission efficiency of the gear solution and the space and energy efficiency of belt/chain structure advantages of the CVT. Both DCT and CVT could be applied in different conditions to maximize the specific performance.

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Numerical realization of a semi-active virtual acoustic black hole effect

Cited by 2 publications

References 41 publications

Realization of an autonomous virtual acoustic black hole with piezoelectric patches

Realization of an autonomous virtual acoustic black hole with piezoelectric patches

Common transmission theory and wide application

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