Xinli Ye, Ph.D., currently serves as Associate Professor, Doctoral Supervisor, and Assistant Dean at the School of Civil Aviation, Northwestern Polytechnical University, with a strong academic foundation built through studies at Nanjing University of Aeronautics and Astronautics and joint training at Nanyang Technological University. Research contributions focus on structural design and performance of advanced composites, particularly wave-absorbing, stealth, and high-temperature materials, addressing both civil and military applications. Work encompasses civil/military airworthiness certification, development of material databases, and innovative solutions for next-generation aerospace technologies. Significant involvement as principal investigator in national and provincial projects highlights expertise in SiC/Si₃N₄-SiOC composites, ablative-insulative-wave-absorbing materials, superconducting magnet cooling fibers, and ceramic aerogels for hypersonic and defense vehicles. Industrial collaborations include research on CVD silicon carbide coatings and manufacturing conformity inspection, reinforcing applied impact. Extensive publication record includes numerous articles in top journals such as Advanced Functional Materials, Materials Today Physics, Journal of Alloys and Compounds, ACS Sustainable Chemistry & Engineering, and Defence Technology, demonstrating leadership in electromagnetic wave absorption, thermal insulation, and composite material innovation. Recognized for highly cited work, research extends to cycle-dependent interface engineering, radar signature prediction, and high-efficiency insulation material optimization. Achievements further include multiple invention and utility patents covering nanostructured composites, stealth ceramics, high-temperature radomes, and advanced protective covers, underlining contributions to technological advancement and aerospace engineering. Commitment to education is also reflected through projects reforming engineer training and developing digital twin platforms for civil aviation. Overall, the career reflects a balance of fundamental material science research, engineering innovation, and practical industrial applications, marking significant influence in aerospace composites and airworthiness technologies. 1,101 Citations 56 documents 18 h-index View.