某超音速风洞大尺寸光学玻璃观察窗优化设计OA
Optimization Design of Large-size Optical Glass Observation Window in Certain Type Supersonic Wind Tunnel
为解决某超音速风洞Φ 800 mm光学玻璃在试验过程中出现裂纹问题,对光学玻璃结构形式及装配方法开展优化设计.在满足强度要求的情况下减小玻璃厚度,设计易安装调节的低应力台阶式光学玻璃,利用 SolidWorks软件计算在合适预紧力及内外压差为一个大气压下 2 种结构形式的应力区别,并采用Abaqus软件分析风洞试验过程中温度对光学玻璃的影响.结果表明:压差对玻璃观察窗强度影响不大,台阶式光学玻璃应力小于原结构形式;高马赫数、增压情况下的温度骤降将造成观察窗中间部位应力集中.
In order to solve the crack problem of 800 mm optical glass in a supersonic wind tunnel during the test,the structural form and assembly method of optical glass were optimized.Under the condition of meeting the strength requirements,the thickness of the glass was reduced,and the low-stress stepped optical glass which was easy to install and adjust was designed.SolidWorks software was used to calculate the stress difference of the two structural forms under the appropriate pre-tightening force and the internal and external pressure difference of one atmosphere,and Abaqus software was used to analyze the influence of temperature on the optical glass during the wind tunnel test.The results show that the pressure difference has little effect on the strength of the glass observation window,and the stress of the stepped optical glass is less than that of the original structure;the sudden drop of temperature under high Mach number and pressurization will cause the stress concentration in the middle of the observation window.
何登;余鑫;郑晓东;付涌
中国空气动力研究与发展中心高速空气动力研究所,四川 绵阳 621000中国空气动力研究与发展中心高速空气动力研究所,四川 绵阳 621000中国空气动力研究与发展中心高速空气动力研究所,四川 绵阳 621000中国空气动力研究与发展中心高速空气动力研究所,四川 绵阳 621000
信息技术与安全科学
超音速风洞光学玻璃优化设计有限元分析
supersonic wind tunneloptical glassoptimization designfinite element analysis
《兵工自动化》 2026 (6)
40-43,4
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