Dr. Tianyu Fu | Advanced Composites | Best Researcher Award

Published on by Superior Awards

Dr. Tianyu Fu | Advanced Composites | Best Researcher Award

Dr. Tianyu Fu | Changzhou College of Information Technology | China

Dr. Tianyu Fu is a research-driven academic specializing in advanced manufacturing and electromagnetic-thermal coupling technologies, with a focus on Carbon Fiber Reinforced Polymer (CFRP) induction heating and composite processing systems. His expertise integrates mechanical design, electromagnetic field analysis, and automated composite fabrication, contributing to advancements in high-performance materials for aerospace and defense industries. His research portfolio includes multiple funded projects under the National Natural Science Foundation of China and Jiangsu Provincial Research Program, emphasizing adaptive dynamic superposition magnetic field technologies for precise temperature control and efficient curing processes. Dr. Fu has produced over ten SCI-indexed publications and provides peer review for leading journals in the field. His technical leadership extends to the development of a Key Laboratory for Carbon Fiber Pressure Vessel Forming Technology and collaborative projects with major industry partners such as COMAC and the China Aerospace Science and Industry Corporation. Among his significant achievements is the creation of China’s first robotic dry winding device for automated composite manufacturing, which has been successfully applied to military-grade composite shell production. His research continues to drive innovation in intelligent electromagnetic heating and carbon fiber composite applications.

Profile: Scopus

Featured Publications

Fu, T. (2025). Induction heating of CFRP based on macro-microscopic combination of dynamic superposition magnetic fields. Applied Composite Materials.

Dr. Qiang Guo | Advanced Composites | Best Researcher Award

Published on by Superior Awards

Dr. Qiang Guo | Advanced Composites | Best Researcher Award

Dr. Qiang Guo | Western Superconducting Technologies Co., Ltd | China

Dr. Qiang Guo, Vice General Manager at Western Superconducting Technologies Co., Ltd., leading research, development, and production of advanced superconducting products with a focus on low-temperature and high-temperature superconducting materials. Key achievements include the development of NbTi superconducting wire and driving breakthroughs in critical temperature stability, magnetic field tolerance, and overall superconductor performance while reducing production costs. Research efforts include studying the properties and microstructure of NbTiTa superconducting wire, supporting industrial applications in MRI systems, particle accelerators, and other high-tech fields. Contributions encompass over 50 authorized invention patents, multiple peer-reviewed publications, industrial-scale production optimization generating annual output exceeding 1.5 billion RMB, and 1 citation by 1 document with an h-index of 1. Leadership in R&D, innovation in superconducting materials, and strategic implementation have established a strong global presence in the superconductivity market, demonstrating the transformative impact of advanced materials on technology and industry. The combination of scientific research, patent development, large-scale manufacturing, and recognized scholarly impact underscores a commitment to advancing superconducting technologies and expanding their applications worldwide.

Profiles: Scopus | Orcid

Featured Publications

  • Guo, Q. (2025). Study on high Jc and low loss experimental NbTi/Cu0.5Mn/Cu superconducting wires for accelerator magnet in WST. IEEE Transactions on Applied Superconductivity.

  • Guo, Q. (2025). Study on the heat treatment microstructure evolution of high field NbTi superconducting strand. IEEE Transactions on Applied Superconductivity.

  • Guo, Q. (2025). Study on the process of monolith NbTi wire with high N-value and high dimensional accuracy for NMR. IEEE Transactions on Applied Superconductivity.

  • Guo, Q. (2024). Influence of Hf addition on the superconducting properties of Nb3Sn. IEEE Transactions on Applied Superconductivity.

  • Guo, Q. (2024). Investigation on the recrystallization and Nb3Sn microstructure of Nb alloys with large deformation during heat treatment. IEEE Transactions on Applied Superconductivity.

  • Guo, Q. (2024). Study on high yield strength monolith NbTi superconducting wire for MRI magnets in WST. IEEE Transactions on Applied Superconductivity.