Mr. Leiwei Zhu | Power Electronics Involves | Research Excellence Award

Published on by Electrical Engineering

Mr. Leiwei Zhu | Power Electronics Involves | Research Excellence Award

Senior Engineer | CRRC QINGDAO SIFANG CO., LTD | China

Zhu Leiwei, a Senior Engineer at CRRC Qingdao Sifang, specializes in vibration and noise control for rail transportation systems, applying his expertise to enhance the acoustic performance and reliability of high-speed rolling stock. Holding a master’s degree with specialization in vibration and noise control, he has developed strong technical competence in designing and optimizing noise-reduction structures and diagnosing abnormal acoustic behaviors in advanced rail vehicles. His professional experience spans high-speed EMUs and maglev systems, where he has contributed to major engineering projects focused on reducing vehicle noise, improving passenger comfort, and ensuring system safety. He has led work on integrated acoustic-material-electrical solutions for EMU motor noise control, achieving notable reductions in operational noise levels and contributing to improved system stability. His research includes publications and multiple patented innovations, reflecting his contributions to rail-vehicle vibration mitigation and structural acoustic optimization. He has participated in collaborative technical evaluations, supported engineering standardization efforts, and engaged with professional communities connected to rail technology and noise control engineering. His work has been acknowledged through institutional recognition and involvement in scholarly review activities, demonstrating his commitment to advancing high-performance, sustainable rail transit technologies. 30 Citations, 12 Documents, 3 h-index, View h-index button is disabled in preview mode

Profile: Scopus 

Featured Publications

Zhu Leiwei, Study on noise control and safety assessment of an EMU motor. High Speed Railway, Accepted.*

Zhu Leiwei, Vibration and noise control strategies for high-speed EMU systems. Rail Vehicle Dynamics, Under Review.

Zhu Leiwei, Acoustic–electromechanical coupling analysis for rail-vehicle motor noise optimization. J. Rail Transit Eng., In Preparation.

Mr. Qiaosheng Pan | Piezoelectric Precision Drive | Research Excellence Award

Published on by Electrical Engineering

Mr. Qiaosheng Pan | Piezoelectric Precision Drive | Research Excellence Award

Professor | Institute of Instrumentation Science and Optoelectronic Engineering, Hefei University of Technology | China

Qiaosheng Pan, an Associate Professor at the Institute of Instrumentation Science and Optoelectronic Engineering, Hefei University of Technology, is a specialist in precision mechanical design, piezoelectric transducers, sensors, and actuators. He holds a B.E. in mechanical engineering and automation from the University of Jinan and a Ph.D. in instrumentation and optoelectronic engineering from the University of Science and Technology of China. His professional experience includes leading numerous national and provincial research projects, authoring a technical monograph, and contributing extensively to the development of advanced piezoelectric motors, pumps, and actuators. He has published widely in SCI and Scopus-indexed journals, with research spanning resonant piezoelectric systems, high-precision displacement mechanisms, and novel actuator architectures, supported by multiple granted patents that advance intelligent detection and precision instrumentation. He has served as a young editor for an academic journal, contributed to major national research collaborations, and holds senior membership in the Chinese Society for Mechanical Engineering. His work integrates design innovation, structural optimization, and experimental validation, significantly shaping next-generation high-precision devices while supporting talent development and engineering practice. 834 citations, 90 documents, 15 h-index.

Profiles: Scopus

Featured Publications

Pan, Qiaosheng*, Development of a type of cross-scale piezoelectric screw motor operating in quasi-static and resonant states. Mechatronics, 2025.

Pan, Qiaosheng*, Design method and error analysis of 3D measurement system in accordance with the Abbe principle. Measurement, 2025.

Pan, Qiaosheng*, Array-structured microcapsule fibers for efficient fire extinguishing in confined spaces. Lab on A Chip, 2025.

Pan, Qiaosheng*, Development of a low-stiffness and high-dynamic micro–nano probe utilizing the eddy current damper. IEEE Sensors Journal, 2025.

Pan, Qiaosheng*, Advancements in manufacturing and applications of multi-dimensional micro-nano materials through interface shearing. (Review, Open Access).