Efficient swimming through electroactive polymer hydrodynamic sensing

Bruns, Arne; Tang, Antony; Mahmoudinezhad, Masoumeh Hesam; Jayaneththi, Nisal Nisal; Rosset, Samuel; Anderson, Iain A.

doi:10.1117/12.2658203

Cited by 2 publications

(1 citation statement)

References 25 publications

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“…Because the DEA's change and extension are theoretically proportional relationships, they can be used as load or stretch sensors. To date, a load sensor has been created using a diaphragm-type [18,79,80], a complex laminated sheet type, etc [82]. However, nowadays, a simple shape-sheet DES is possible, using HNBR ver.3 and HNBR ver.6.…”

Section: Randd Of Dessmentioning

confidence: 99%

Examination of factors to improve the performance of dielectric elastomer transducers and their applications

Chiba,

Waki,

Takeshita

et al. 2024

Smart Mater. Struct.

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Actuators, sensors, and generators using dielectric elastomers are inexpensive and light, and can be easily to structured, multilayer-able, and very efficient. They are　ideal for an eco-energy society. In the latest technology, an only 0.15 g dielectric elastomer can lift an 8 kg weight by 1 mm or more in just 88 ms. the near future, it can be applied to efficient drive systems of humanoid robots, systems that assist in driving the motors of electric vehicles, and various industrial machinery. It is highly likely that very thin and miniaturized dielectric elastomer sensors would also support the driving of motors. In addition, dielectric elastomer generators, which can be applied to various external forces, have attracted significant attention as a renewable energy source. In this paper, we discuss the R&D status of dielectric elastomers using mainly commercially available elastomer materials, give examples of issues, and discuss and their potential applications, and usefulness.The excellent performance of the dielectric elastomers mentioned above is largely due to their carbon-based electrodes. In this study, various carbon materials (including carbon grease, carbon black, MWCNT, and SWCNT) and their dielectric elastomer performances were compared.

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Section: Randd Of Dessmentioning

confidence: 99%

Examination of factors to improve the performance of dielectric elastomer transducers and their applications

Chiba,

Waki,

Takeshita

et al. 2024

Smart Mater. Struct.

View full text Add to dashboard Cite

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Hydrodynamic pressure sensing for a biomimetic robotic fish caudal fin integrated with a resistive pressure sensor

Zhao,

Zhang,

Chen

et al. 2024

Bioinspir. Biomim.

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Micro-sensors, such as pressure and flow sensors, are usually adopted to attain actual fluid information around swimming biomimetic robotic fish for hydrodynamic analysis and control. However, most of the reported micro-sensors are mounted discretely on body surfaces of robotic fish and it is impossible to analyzed the the hydrodynamics between the caudal fin and the fluid. In this work, a biomimetic caudal fin integrated with a resistive pressure sensor is designed and fabricated by laser machined conductive carbon fibre composites. To analyze the pressure exerted on the caudal fin during underwater oscillation, the pressure on the caudal fin is measured under different oscillating frequencies and angles. Then a model developed from Bernoulli equation indicates that the maximum pressure difference is linear to the quadratic power of the oscillating frequency and the maximum oscillating angle. The fluid disturbance generated by caudal fin oscillating increases with an increase of oscillating frequency, resulting in the decrease of the efficiency of converting the kinetic energy of the caudal fin oscillation into the pressure difference on both sides of the caudal fin. However, perhaps due to the longer stability time of the disturbed fluid, this conversion efficiency increases with the increase of the maximum oscillating angle. Additionally, the pressure variation of the caudal fin oscillating with continuous different oscillating angles is also demonstrated to be detected effectively. It is suggested that the caudal fin integrated with the pressure sensor could be used for sensing the in situ flow field in real time and analysing the hydrodynamics of biomimetic robotic fish.

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Efficient swimming through electroactive polymer hydrodynamic sensing

Cited by 2 publications

References 25 publications

Examination of factors to improve the performance of dielectric elastomer transducers and their applications

Examination of factors to improve the performance of dielectric elastomer transducers and their applications

Hydrodynamic pressure sensing for a biomimetic robotic fish caudal fin integrated with a resistive pressure sensor

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