Integrating finite element analysis and machine learning for non-invasive tumor detection: a piezoelectric tactile sensor-based vibration absorber approach

Neural Computing and Applications, Год журнала: 2025, Номер unknown

Опубликована: Март 25, 2025

Язык: Английский

A Comprehensive Review of Piezoelectric Ultrasonic Motors: Classifications, Characterization, Fabrication, Applications, and Future Challenges

Micromachines, Год журнала: 2024, Номер 15(9), С. 1170 - 1170

Опубликована: Сен. 21, 2024

Piezoelectric ultrasonic motors (USMs) are actuators that use frequency piezoelectric vibration-generated waves to transform electrical energy into rotary or translating motion. USMs receive more attention because they offer distinct qualities over traditional magnet-coil-based motors, such as miniaturization, great accuracy, speed, non-magnetic nature, silent operation, straightforward construction, broad temperature operations, and adaptability. This review study focuses on the principle of their classifications, characterization, fabrication methods, applications, future challenges. Firstly, classifications USMs, especially, standing-wave, traveling-wave, hybrid-mode, multi-degree-of-freedom summarized, respective functioning principles explained. Secondly, finite element modeling analysis for design performance predictions, conventional nano/micro-fabrication various characterization methods presented. Thirdly, advantages, high small size, benefits different specific applications examined. Fourthly, advantages disadvantages highlighted. In addition, substantial contributions a variety technical fields like surgical robots industrial, aerospace, biomedical introduced. Finally, prospects challenges, well research directions in USM development, outlined, with an emphasis downsizing, increasing efficiency, new materials.

Язык: Английский

A Comprehensive Review on the Advances of Nanowires in Multidisciplinary Applications

Nano LIFE, Год журнала: 2024, Номер 14(04)

Опубликована: Июнь 8, 2024

This review study examines the various possible applications of nanowires (NWs) across multiple fields, highlighting their unique optical, electrical, and mechanical properties. NWs, due to elongated structure high aspect ratio, are highly useful in many industries including electronics, pharmaceuticals, chemical detection, energy storage, conversion. The research explores fundamental methods for synthesis integration, vapor–liquid–solid growth template-assisted processes. Additionally, it modifying attributes through manipulation composition. NWs considered intriguing building blocks cutting-edge showcasing benefits high-frequency components, thermoelectric devices, photovoltaic cells, flexible light-emitting diodes. emphasizes wide array potential uses NW arrays very sensitive sensing, particularly integrating these into small, energy-efficient sensors diverse measurements. Furthermore, demonstrate promise harvesting, photovoltaics, self-powered devices. focuses on overcoming challenges related ability produce a large scale, ensuring consistent material quality, addressing issues compatibility with biological systems. It need collaboration between different fields fully utilize energy, biomedicine. Despite challenges, NWs’ adaptable properties significant size make them well-suited revolutionize industries, enabling advancement point-of-care diagnostics, efficient solar immersive virtual reality.

Язык: Английский