Dr. Dou Hu, The University of Hong Kong, China.
Publication profile
Education and Experience
ย Postdoctoral Fellowย (2024) โ The University of Hong Kong, Hong Kong- ย Doctor of Engineeringย in Materials Science (2024) โ Northwestern Polytechnical University (NWPU), Xi’an, China
- ย Master of Engineeringย in Materials Science (2020) โ Northwestern Polytechnical University (NWPU), Xi’an, China
- ย Bachelor of Engineeringย in Composite Materials & Engineering (2017) โ Northwestern Polytechnical University (NWPU), Xi’an, China
Suitability For The Award
Dr. Dou Hu is a distinguished materials scientist whose innovative contributions to additive manufacturing, ceramic and composite materials design, and high-temperature oxidation have established him as a leader in the field. With an impressive publication record and significant accolades, he is highly deserving of the Best Researcher Award.
Professional Developmentย
Dr. Dou Hu specializes in additive manufacturing, ceramic composites, and high-temperature materials. His focus is on the design, simulation, and fabrication of ablation-resistant and self-healing coatings for extreme environments, such as aerospace and industrial sectors. By employing plasma spraying and exploring fiber-reinforced composites, he enhances materials’ resistance to oxidation, thermal stress, and particle impact (๐ฅ). Dou also integrates multiscale simulation techniques to study and improve the performance of ultra-high-temperature ceramics and their interfaces. His cutting-edge research contributes to advancing the durability and functionality of next-generation engineering materials. ๐ฌ๐ฐ๏ธ
Research Focusย
Awards and Honors
ย 2024ย โ One Hundred National Postgraduate Model of Party Members (Top 1%)
ย 2023ย โ Star of Self Strengthening among Chinese College Students (Top 1โฐ)
ย 2022ย โ National Silver Award, The 8th China International College Studentsโ “Internet+” Innovation and Entrepreneurship Competition (Top 1โฐ globally)
Publications
ย ZrC modified carbon/carbon composites using ZrSi2 and Zr-Cu alloys as reactive infiltrating materialsย โย 2024,ย Journal of Alloys and Compounds; Cited by: 1ย 
- ย Ablation resistant C/C-HfC-ZrC-TaC-SiC composites prepared by reactive melt infiltrationย โย 2024,ย Ceramics International; Cited by: 0ย
- ย Ablation resistant behavior of silicide modified HfB2-SiC coating on graphite by spark plasma sintering: Role of MeSi2 additionย โย 2024,ย Journal of the European Ceramic Society; Cited by: 1ย
- ย Improving repair performance for damaged C/C composites via heat-treatment temperature optimization and surface pretreatmentย โย 2024,ย Journal of Materials Science & Technology; Cited by: 6ย
- ย Insights into (Hf-Zr-Ta-Nb) C thermal protective system: Ablation behavior, morphology evolution and atomic bondingย โย 2024,ย Ceramics International; Cited by: 7ย
- ย Insights into service-derived Zr-Ta-O film: Morphology evolution, temperature resistance, and atomic bondingย โย 2024,ย Journal of the European Ceramic Society; Cited by: 6ย
- ย Effects of air plasma flame on the ZrB2-based UHTC coatings: Microstructure, phase evolution and ablation resistanceย โย 2023,ย Journal of Materials Science & Technology; Cited by: 16ย