1.
The main research direction of Professor Zhan Jialiang is : Propulsion system of spacecraft.
主要研究方向:航天器推进系统研究。
2.
Model-based fault diagnosis system for the spacecraft propulsion system
基于模型的航天器推进系统故障诊断
3.
HYBRID APPROACH FOR ESTIMATING COUPLING EFFECT BETWEEN PROPELLANT SLOSHING DYNAMIC AND SPACECRAFT GNC
航天器推进剂晃动与控制系统之间耦合效应的混合型估算方法(英文)
4.
Research on Thermal-mechanical Coupled Analysis of Launch Vehicle Cryogenic Tanks
航天运载器低温推进剂贮箱热力耦合分析研究
5.
spaceborne remote sensing
从航天器进行的遥感
6.
External SRBs, orbital system engines, it's just like the shuttle you flew.
外置固态火箭推进器,轨道系统引擎 和你飞过的航天飞机一样
7.
Numerical Prediction for Thrust Deduction of an Underwater Revolution Body with Ducted Propulsor
水下航行体导管推进器推力减额的数值预报
8.
Study on Optimal Orbit Design for Spacecraft with Finite Thrust
有限推力作用下航天器轨道优化设计方法研究
9.
Optimal cooperative finite-thrust spacecraft out-of-plane rendezvous using direct collocation method
有限推力航天器双主动交会的最优控制
10.
A Robust Orbit Design Method for Thrust-Limited Spacecraft Rendezvous
一种有限推力航天器交会轨道的鲁棒设计方法
11.
The spacecraft is that a kind of pressure of utilizing sunlight carries on the spacecraft of the space flight.
航天器是一种利用太阳光的压力进行太空飞行的航天器。
12.
Three more flights were made in Mercury spacecraft.
后来,“水星”号航天器又进行了三次飞行。
13.
The Progress of Shanghai Spacecraft EPS Technology in the 20th Century
20世纪上海航天器电源技术的进展
14.
Progressive Failure Analysis for Composite Structures of Spacecraft
航天器复合材料结构的渐进损伤分析
15.
An Overview of Recovery and Landing Systems for Foreign Manned Spacecrafts
国外载人航天器回收着陆技术的进展
16.
A Study of Influence of Technology Readiness Level on Spacecraft Development Schedule
技术成熟度对航天器研制进度的影响
17.
Finally, in view of the requirements of passive leak detection of Chinese space craft, the correlative steps are recommended.
最后,针对我国航天器的被动检漏需求,推荐了航天器被动检漏的相关措施。
18.
Spacecraft automatic test and spacecraft test language
航天器自动化测试与航天器测试语言