高翔宇
新闻发布时间:2025-08-12
文章标题:本团队在《先进材料技术》(Advanced Materials Technologies)期刊发表论文
内容:
Abstract: As a critical device for underwater communication, underwater acoustic beacons face significant technical challenges in energy supply and signal transmission. In this study, a self-powered underwater acoustic beacon system is developed. In the self-powered module, a piezoelectric energy harvester (PEH) with a dual bluff body variable-stiffness cantilever structure is introduced. It is based on Pb(In1/2Nb1/2)O3−Pb(Mg1/3Nb2/3)O3−PbTiO3 (PIN-PMN-PT) relaxor ferroelectric crystal with high piezoelectric coefficient (d33≈2082 pC N−1). By enhancing vortex-induced forces via the Karman vortex street effect, it achieves 117.8 VPP output voltage and 11.52 mW cm−3 power density at a flow velocity of 1 m s−1. These values are more than 10 times higher than traditional cantilever designs (≈10 VPP and 1 mW cm−3). In the underwater acoustic beacon module, a PIN-PMN-PT-based underwater acoustic transducer is designed. It leverages the high piezoelectric performance of the single crystal, along with optimized matching layers and circuit design. Compared to ceramic counterparts, it achieves a 2.58–10.81 dB higher transmitting voltage response and a 4.68–12.51 dB higher receiving voltage sensitivity, while its −6 dB bandwidth is expanded by 2–8 kHz. Experimental sea trials validate its efficient energy harvesting and long-term operation, offering a maintenance-free solution for long-distance underwater communication.
