1.
Virtual Prototype Design of Reuable Launch Vehicle;
重复使用跨大气层飞行器动力学虚拟样机设计
2.
Research of Aerodynamic and Structures Characteristics in the RLV;
可重复使用跨大气层飞行器气动及结构特性分析研究
3.
Health Monitoring for Thermal Protection Systems on Reusable Launch Vehicles;
重复使用跨大气层飞行器防热系统健康监控技术研究
4.
no-atmospheric control
大气层外飞行操纵机构
5.
"Spacecraft: Vehicle designed to operate, with or without a crew, in a controlled flight pattern above Earth's lower atmosphere."
航天器:设计在地球低层大气上按受控飞行路线运行的载人或不载人的飞行器。
6.
Design and Implement of Real-time Virtual Atmosphere Environment Server Based on HLA
无人飞行器飞行实时大气环境仿真服务器
7.
Theory of Predictive Guidance with Application to Reentry and Exoatmospheric Interception;
预测制导理论在飞行器再入与大气层外拦截中的应用
8.
The lower portion of the atmosphere in which both uncrewed and crewed flight is possible.
大气圈可飞行无人或载人飞机的大气层的较低部位
9.
In December 1978, the Pioneer Venus 1 probe and orbiter measured argon isotopes in the atmosphere of Venus.
1978年12月,金星先驱者1号探测器和轨道飞行器,测定了金星大气层中的氩同位素。
10.
Aerodynamic configuration design for a parameterized lifting body common aero vehicle
通用大气飞行器的参数化气动布局研究
11.
They also showed that the Apollo spacecraft could survive the launch and could re-enter Earth's atmosphere safely.
试验飞行还证明了“阿波罗”号航天器能够经受住发射的冲击,也能够安全地重返地球大气层。
12.
The Influence of Spaceship's Main Parameters on Orbit in the Phase of Extra-atmospheric Flight
飞船在大气层外飞行段的主要参数对轨道的影响
13.
The greater the exhaust velocity is, the faster the rocket travels as it smashes through the atmosphere.
排气速度越大,火箭在冲出大气层时的飞行速度也就越快。
14.
a spacecraft in re-entry mode
处于重返大气层运行中的航天器
15.
Unsteady Aerodynamic Characteristics for the Aircraft Oscilation in Large Amplitude;
飞行器大振幅运动非定常空气动力特性研究
16.
Research on Electrochemical Detection for Atmospheric Corrosion of Aircraft Aluminium Alloy;
飞行器用铝合金大气腐蚀的电化学检测研究
17.
Reentry Trajectories Simulation of Sub-orbital Flight Vehicle in Atmospheric Environment
大气环境中的亚轨道飞行器再入轨迹仿真
18.
the space ship flies into the sky and flies through the aerosphere.
宇宙飞船直上九霄, 最后飞离了大气层。