Meng Fanxing | Engineering Mechanics | Best Researcher Award

Published on by Invention Awards

Ms. Meng Fanxing | Engineering Mechanics | Best Researcher Award

Shenyang Aircraft Design & Research Institute, China

Profile

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🎓 Early Academic Pursuits

Born in September 1983 in Shenyang, Liaoning, Meng Fanxing embarked on her academic journey with a Bachelor’s degree in Engineering Mechanics, demonstrating early dedication to the field of aeronautical engineering. Her passion led her to pursue a Master’s in Solid Mechanics at the prestigious Beijing University of Aeronautics and Astronautics (2006.09–2009.01). Continuing her academic advancement, she is currently a PhD candidate in Aircraft Design at the College of Aeronautical Science and Engineering, China Academy of Aeronautics since September 2023.

🛫 Professional Endeavors

Meng began her career in March 2009 as an Engineer in the System Strength Room of the Shenyang Aircraft Design and Research Institute. Her commitment and exceptional performance led to her promotion in September 2018 to Senior Engineer in the Advanced Technology Laboratory under the Comprehensive Strength Department. Over the years, she has been entrusted with the Chief Designer role for system strength—a testament to her leadership and expertise.

🧪 Contributions and Research Focus

Meng’s core research lies in aircraft structural strength, with a concentrated focus on landing gear statics, dynamics, durability, and damage tolerance. She has been responsible for the design and testing (static, drop shock, and fatigue) of landing gear components for multiple aircraft models. Her innovative work also includes contributions to intelligent flexible variant technologies, structural fatigue and impact resistance, multifunctional structural integrity design, and the application of CNT-based high-temperature film strain testing technologies.

🏆 Impact and Influence

Over her 14-year career, Meng has made substantial impacts within the aviation industry. She has been honored with three Science and Technology Progress Awards from the Aviation Industry Corporation of China, alongside multiple recognitions such as the Institute’s Science and Technology Innovation Award and Science and Technology Achievement Award. Her expertise has led to over 100 technical reports, 15 invention patents (11 of which have been authorized), and the publication of 6 scientific papers.

📚 Academic Citations and Recognition

While her work is mainly centered around classified defense research and high-impact engineering implementation, her 6 published papers and 11 patented inventions have become vital references in structural strength analysis and aircraft design optimization. These contributions have laid a foundation for standardized processes and have expanded the professional research landscape within her domain.

💻 Technical Skills and Expertise

Meng is proficient in aircraft strength design, fatigue life analysis, and test verification, backed by deep knowledge of scientific literature and engineering documentation. She possesses high-level technical writing skills, regularly authoring comprehensive technical documents, project proposals, and scientific support materials. Her strong analytical skills and hands-on experience enable her to lead and collaborate efficiently in multidisciplinary teams, particularly in solving real-time challenges during aircraft development and trials.

👩‍🏫 Teaching and Mentorship Experience

Although her primary roles are research and design-based, Meng has informally mentored young engineers and researchers within the institute. By organizing and standardizing professional knowledge—especially in landing gear strength specialties—she has contributed to building a more complete and systematic training path for new professionals in her field.

🌟 Legacy and Future Contributions

Looking ahead, Meng Fanxing continues to push the boundaries of aircraft structural integrity through cutting-edge research. Her ongoing doctoral work and her role in major military research projects underscore her commitment to innovation, national defense advancements, and technological evolution. Her career embodies the fusion of practical engineering excellence with scientific exploration, setting a benchmark for future aerospace engineers.

📚 Publication

  • Chen Liang, Meng Fanxing, Gu Yuxuan. "Research on damage identification method and application of key aircraft components based on digital twin." The Second International Conference on Green Aviation, Chengdu, Sichuan, 2024.

  • Dian Xu, Sijun Xiong, Fanxing Meng, Bo Wang, Rui Li. "An Analytic Model of Transient Heat Conduction for Bi-Layered Flexible Electronic Heaters by Symplectic Superposition." Micromachines, 2022, 13(1627).

  • Fanxing Meng, Qin Zhou, Jialing Yang. "Improvement of crashworthiness behavior for simplified structural models of aircraft fuselage." International Journal of Crashworthiness, 2009, 14(1): 83-97.

  • Du Jinzhu, Meng Fanxing. "Evaluation criteria for landing gear drop test based on energy method." Acta Aeronautica Sinica, 2018, 39(4): 221375-1-9.

 

Prof. Qingjun Chen | Engineering | Best Researcher Award

Published on by Invention Awards

Prof. Qingjun Chen | Engineering | Best Researcher Award

Nanchang Hangkong University, China.

Qingjun Chen, PhD, is a distinguished professor and a high-end talent in scientific and technological innovation under Jiangxi Province's "Thousand Talents Plan." Recognized as a leading academic and technological figure in major disciplines, he serves as an academic leader and a young and middle-aged backbone teacher in Jiangxi Province. He has held key positions in various professional committees and serves as an expert reviewer for multiple national and provincial scientific organizations.

Profile

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Education

Qingjun Chen earned his PhD in Materials Science from Harbin Institute of Technology in 2006, solidifying his expertise in advanced materials research. In 2005, he broadened his academic exposure by conducting research at the University of Waikato, New Zealand, gaining international experience in material science innovations. Further enhancing his global academic collaborations, he served as a Visiting Scholar at North Carolina State University, USA, in 2010, where he deepened his research on material performance regulation and alloy applications.

Experience

Qingjun Chen has established himself as a leading expert in materials science, holding multiple prestigious roles in national and international scientific communities. He is a member of the Amorphous Alloys and Applications Committee under the Chinese Society of Metals and also contributes to the Railway Facilities Committee of the China Society for Corrosion and Protection. Additionally, he serves as a communication review expert for the National Natural Science Foundation of China and a letter review expert for the China Postdoctoral Science Foundation, actively shaping the direction of scientific research in the country. His expertise is widely recognized, and he has been a science and technology consultant and reviewer for multiple provincial and municipal research projects, ensuring the successful implementation of key scientific initiatives.

Research Interests

Advanced Material Organization & Performance Regulation – Investigating material structures and optimizing their properties for industrial use.

Innovative Materials Development – Designing new materials with enhanced durability and functionality.

Corrosion Protection – Developing advanced coatings and alloys to prevent material degradation.

Alloy Design & Optimization – Creating high-performance alloys for specialized applications.

National Defense Applications – Contributing to the development of materials for military and defense technologies.

Aerospace Engineering – Enhancing materials used in aircraft and space exploration for improved performance and safety.

Railway Infrastructure – Advancing material solutions to increase efficiency and longevity in railway construction and maintenance.

Awards & Recognitions

Provincial and Ministerial Science and Technology Award (Second Prize) – Ranked First

Recognized as a Young and Middle-aged Backbone Teacher in Jiangxi Province

Key contributor to Jiangxi Province's "Thousand Talents Plan"

Selected Publications

Nb-induced lattice changes to enhance corrosion resistance of Al₀.₅Ti₃Zr₀.₅NbₓMo₀.₂ high-entropy alloys
Q. Chen, X. CuiNature Communications, 2025

Amorphous-nanocrystalline dual-phase structured Fe₇₈Si₁₃B₉ alloy ribbons and their efficiency for degradation of direct yellow dye
Y. Zhao, Q. Chen, L. Ji, K. Wang, G. HuangReaction Kinetics, Mechanisms and Catalysis, 2024
1 Citation (Open Access)

Strengthening mechanism of electrocatalytic properties of high activity Fe-based amorphous alloys by low escape work nanocrystals
Y. Zhao, Q. Chen, L. Ji, K. Wang, G. HuangJournal of Materials Research and Technology, 2024
2 Citations

Microstructure and Internal Friction Behavior of Laser 3D Printed Fe-Based Amorphous Composites
S. Huang, Q. Chen, L. Ji, K. Wang, G. HuangActa Metallurgica Sinica (English Letters), 2024
3 Citations

BCC/B2 structure and dislocation strengthening behavior in high Ti content TiAlVCrNb high-entropy alloys
T. Xu, Q. Chen, L. Ji, K. Wang, H. LiuJournal of Alloys and Compounds, 2023
35 Citations