Qinqin Mu | Aviation | Best Research Article Award

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Dr. Qinqin Mu | Aviation | Best Research Article Award

Dr. Qinqin Mu | Aviation – Engineer at Aircraft Strength Research Institute of China

Qinqin Mu is a highly accomplished aerospace engineer, currently serving as a Senior Engineer at the Aircraft Strength Research Institute under the Aviation Industry Corporation of China (AVIC), Beijing. With over 15 years of professional experience in structural dynamics, aero-engine design, and mechanical systems reliability, she has made significant strides in advancing safety-critical technologies within the aviation sector. Known for her scientific rigor and collaborative approach, Mu has played pivotal roles in both defense-related and commercial engineering projects, consistently applying advanced vibration modeling, structural testing, and damage tolerance assessments to improve aero-engine performance.

Academic Profile:

ORCID

Education

Qinqin Mu holds a Ph.D. in Mechanical Engineering from a leading technical university in China, where she specialized in vibration behavior and rotor–stator interaction under dynamic loads. Her doctoral research formed the basis of her long-term contributions to aero-engine safety and reliability. She has also undergone several professional training programs in advanced simulation tools and experimental mechanics, positioning her as a technical leader in dynamic system evaluations and fatigue damage forecasting.

Experience

Since joining AVIC in 2009, Mu has gained extensive hands-on experience in structural analysis, high-speed rotating systems, and failure diagnostics. She is widely recognized for her work on rubbing dynamics in turbine engines and has contributed to the design of new-generation aero-engines with improved operational reliability. Her contributions span across conceptual design, computational validation, and real-world system integration. Beyond her research contributions, she also mentors young engineers, leads technical committees, and plays an advisory role in cross-functional research groups within AVIC and national consortiums.

Research Interests

Qinqin Mu’s core research interests include aero-engine rotor–stator dynamics, friction-induced vibration, thermal-mechanical fatigue, and flexible structural interactions between coated blades and casings. Her work uniquely blends finite element modeling with experimental verification, offering deep insight into transient dynamic behavior under critical operating conditions. Her research not only contributes to better turbine reliability but also supports fuel efficiency and sustainability by reducing unexpected in-service failures. She is particularly interested in exploring interdisciplinary links between materials science and structural dynamics in future research.

Awards

Qinqin Mu has received internal recognition at AVIC for engineering excellence and collaborative innovation. Her recent research contributions have led to nominations for national aerospace innovation awards and industry-specific recognition for technical leadership. She was shortlisted for a collaborative research award within her institution and is currently nominated for the Best Research Article Award in recognition of her outstanding scientific contributions to rotor–stator interaction modeling.

Publications 📚

  1. 🌀 “Design and Testing of a Device to Investigate Dynamic Performance of Aero-Engine Rotor–Stator Rubbing Dynamics” – Eng, 2025 (DOI: 10.3390/eng6070162), cited by 8 articles, introduces a novel device to test rubbing effects in aero-engines.
  2. ⚙️ “Study on Rubbing-Induced Vibration Characteristics Considering the Flexibility of Coated Casings and Blades” – Machines, 2024 (DOI: 10.3390/machines12070481), cited by 11 articles, explores the nonlinear interaction between flexible blades and coating layers.

Conclusion

Qinqin Mu stands out as a dedicated and innovative researcher whose work directly enhances the performance and reliability of aero-engines. Her integrated approach, combining theoretical modeling, experimental validation, and practical application, represents a valuable contribution to the field of mechanical and aerospace engineering. With her strong publication record, leadership in collaborative projects, and commitment to high-impact research, she is a fitting nominee for the Best Research Article Award. Her future research is expected to focus on smart diagnostics and AI-driven failure prediction systems for rotating machinery, further extending her impact in both academic and industrial settings.

 

 

Tian-Bing Xu | Mechanical and Aerospace | Best Researcher Awards

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Prof. Tian-Bing Xu | Mechanical and Aerospace | Best Researcher Awards

Ph.D. at Old Dominion University, United States

Dr. Tian-Bing Xu is an Associate Professor in the Department of Mechanical and Aerospace Engineering at Old Dominion University (ODU). He leads the Smart Materials & Intelligent Systems (SMIS) Laboratory, focusing on advanced technologies in smart materials, energy harvesting, and intelligent systems. Recognized among the top 2% of the most influential scientists worldwide, Dr. Xu has made significant contributions to energy conversion, renewable energies, and aerospace technologies. His interdisciplinary research and collaboration with organizations such as NASA and the Department of Defense have earned him numerous accolades, cementing his reputation as a leading researcher in his field.

Profile

Google Scholar

Education:

Dr. Xu’s academic journey began with a Diploma in Physics from Shandong University, China, followed by graduate work at the Chinese Academy of Sciences. He then moved to the United States, where he completed both his Master’s and Ph.D. in Materials Science and Engineering at The Pennsylvania State University. His Ph.D. research focused on developing electromechanical devices using electroactive polymers, under the guidance of Dr. Qiming Zhang. This education laid the foundation for his future work in advanced materials and intelligent systems, blending fundamental science with applied engineering solutions.

Experience:

Dr. Xu has over two decades of experience in academic and applied research. Since joining ODU in 2018 as an Associate Professor, he has led projects in smart materials, energy harvesting, and sensor technologies. Before ODU, he worked at NASA Langley Research Center and the National Institute of Aerospace in various capacities, contributing significantly to aerospace research. His work in these roles included leadership in developing piezoelectric materials and energy harvesting systems, with several projects transitioning to industrial applications. He also held a Senior Research Scientist position, which was critical in his collaboration with NASA on multiple innovations. His academic experience is further highlighted by multiple invited talks and keynote speeches.

Research Interests:

Dr. Xu’s research primarily focuses on smart materials and intelligent systems, with applications in energy harvesting, robotics, medical devices, and renewable energies. His work aims to develop materials and systems that can efficiently convert mechanical energy into electrical energy, particularly for use in structural health monitoring, offshore energy systems, and wearable technology. He is also deeply invested in advancing manufacturing technologies for these materials to increase their real-world applicability. Additionally, Dr. Xu’s research has expanded into exploring piezoelectric technologies for energy recovery, aiming to revolutionize both the aerospace and renewable energy industries.

Awards:

Dr. Xu has received numerous awards for his groundbreaking research. Notably, he was included in the Stanford University list of the top 2% of the most influential scientists worldwide. He has also been awarded research grants totaling over $12 million from prestigious organizations such as NASA, NSF, DOD, and various state agencies. His leadership in securing these grants, both as principal investigator and co-investigator, highlights his capacity to drive impactful research projects. Dr. Xu has also received the prestigious ONR Summer Faculty Fellowship and has been honored with awards for his patented technologies.

Publications:

Dr. Xu has published 58 peer-reviewed journal articles, 3 book chapters, and over 44 conference papers. His research has appeared in leading journals with high impact factors, contributing significantly to the advancement of materials science and engineering. A selection of his key publications includes:

A review of piezoelectric footwear energy harvesters: principles, methods, and applications, Sensors, 2023.

Proof Mass Effects on a Flextensional Piezoelectric Energy Harvester, IFAC-PapersOnLine, 2022.

A high density piezoelectric energy harvesting device from highway traffic—System design and road test, Applied Energy, 2021.

Piezoelectric energy harvesting from human walking by using a two-stage amplification mechanism, Energy, 2019.

Design, optimization, modeling, and testing of a piezoelectric footwear energy harvester, Energy Conversion and Management, 2018.

Conclusion:

Dr. Tian-Bing Xu’s achievements make him a highly deserving candidate for the Best Researcher Award. His pioneering work in smart materials, energy harvesting technologies, and advanced manufacturing places him at the forefront of scientific innovation. His leadership in securing substantial research grants, his prolific publication record, and his numerous patents underscore his significant contributions to both academic and practical advancements in his field. With continued growth in interdisciplinary research and broader global collaborations, Dr. Xu’s work promises to have an even greater impact on the future of technology and sustainable energy solutions.