摘要
针对某卫星姿态控制系统中的重要测量部件二浮陀螺仪的精度及可靠性不断提高的要求,为了分析、掌握二浮陀螺仪的热设计及内部温度场分布对其精度和可靠性的影响,利用Ansys Fluent软件对二浮陀螺仪温度场进行仿真分析,得出其内部温度场分布情况,并与热真空试验数据进行比对,验证了二浮陀螺仪有限元模型及边界条件的准确性,根据仿真结果提出改善二浮陀螺仪热设计的优化措施.
As one of the important measuring instruments in satellite attitude control system, the require- ments for accuracy and reliability of floated gyro are increasing. In order to analyze the influences of ther- mal design and internal temperature field distribution of floated gyro on its accuracy and reliability, the internal temperature field is simulated and analyzed via Ansys Fluent software. By compared with the thermal vacuum test data, the accuracy of the finite element model and boundary conditions of floated gyro are verified. According to the simulation results, some optimization measures are proposed to im- prove the thermal design of floated gyro.
出处
《空间控制技术与应用》
CSCD
北大核心
2015年第5期39-42,52,共5页
Aerospace Control and Application
关键词
二浮陀螺仪
热仿真
floated gyro
thermal simulation
