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| Research Status of Thermal Protection Performance Test Technology for Airborne Missiles |
| Received:July 01, 2024 Revised:September 08, 2024 |
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| DOI:10.7643/issn.1672-9242.2024.12.008 |
| KeyWord:thermal protection oxyacetylene/plasma ablation laser irradiation quartz lamp radiation high enthalpy wind tunnel |
| Author | Institution |
| LUO Chuyang |
Center for Civil Aviation Composites, Donghua University, Shanghai , China |
| JIANG Jiarui |
Center for Civil Aviation Composites, Donghua University, Shanghai , China |
| CHENG Gong |
China Airborne Missile Academy, Henan Luoyang , China |
| HUANG Yimin |
China Airborne Missile Academy, Henan Luoyang , China |
| CAI Yuwei |
Center for Civil Aviation Composites, Donghua University, Shanghai , China |
| LI Xiaosheng |
China Airborne Missile Academy, Henan Luoyang , China |
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| Abstract: |
| The work aims to comprehensively review the current state of four mainstream technologies in the thermal protection performance test of airborne missiles, including oxyacetylene/plasma erosion technology, laser irradiation technology, quartz lamp radiation technology, and high enthalpy wind tunnel technology. Each technology has unique characteristics and plays an indispensable role in simulating actual flight conditions and evaluating the effectiveness of thermal protection. The in-depth analysis is conducted to the research status of each technology and the potential future developments and key technologies are prospected. Through this review, a more comprehensive and in-depth understanding of airborne missile thermal protection performance test technologies is obtained, providing valuable references and guidance for related research and practical applications. |
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