航空精密制造技术
航空精密製造技術
항공정밀제조기술
Aviation Precision Manufacturing Technology
2015年
5期
35-37
,共3页
双曲面%成形%航空有机玻璃
雙麯麵%成形%航空有機玻璃
쌍곡면%성형%항공유궤파리
hyperboloid%forming%aviation organic glass
航空有机玻璃具有优良的光学、强度、耐热、耐老化、耐紫外线性能,特别是光学畸变及角位移很小。本文论述了一种新的成形方法可用于双曲面航空有机玻璃的成形,成形方法较国内外常用的真空袋压装法对于环境的要求更低,生产效率更高,成本更低。
航空有機玻璃具有優良的光學、彊度、耐熱、耐老化、耐紫外線性能,特彆是光學畸變及角位移很小。本文論述瞭一種新的成形方法可用于雙麯麵航空有機玻璃的成形,成形方法較國內外常用的真空袋壓裝法對于環境的要求更低,生產效率更高,成本更低。
항공유궤파리구유우량적광학、강도、내열、내노화、내자외선성능,특별시광학기변급각위이흔소。본문논술료일충신적성형방법가용우쌍곡면항공유궤파리적성형,성형방법교국내외상용적진공대압장법대우배경적요구경저,생산효솔경고,성본경저。
Aviation organic glass has performance of excellent optical, strength, heat-resistant, anti-aging, anti UV properties and especially optical distortion and angular displacement is very small. An organic glass forming was introduced and can be used for forming a hyperboloid of aviation organic glass. Compared with the current hyperbolic aviation organic using a vacuum bag pressing method, the method is lower in the environment and has the advantages of low cost and high efficiency.
