Kapton抗原子氧侵蚀的Al2O3涂层研究

在原子氧侵蚀地面模拟设备中对Kapton和利用反应溅射制备的Al2O3涂层进行了原子氧暴露实验，并采用XPS和SEM等分析手段对暴露前后试样表面的物理和化学变化进行了研究。结果表明，Kapton试样遭受了严重的侵蚀，质量损失较大；Al2O3涂层质量变化很小，对基体提供了良好的保护作用。XPS分析结果表明，Kapton的羰基与原子氧作用时形成CO2，随后CO2气体脱附。反应溅射的Al2O3涂层是富Al的，初始暴露时由于氧化反应而质量有少许增加，随时间延长，涂层变得完全符合化学计量。     

Determining the precipitable water vapor thresholds under different rainfall strengths in Taiwan

Precipitable Water Vapor (PWV) plays an important role for weather forecasting. It is helpful in evaluating the changes of the weather system via observing the distribution of water vapor. The ability of calculating PWV from Global Positioning System (GPS) signals is useful to understand the special weather phenomenon. In this study, 95 ground-based GPS and rainfall stations in Taiwan were utilized from 2006 to 2012 to analyze the relationship between PWV and rainfall. The PWV data were classified into four classes (no, light, moderate and heavy rainfall), and the vertical gradients of the PWV were obtained and the variations of the PWV were analyzed. The results indicated that as the GPS elevation increased every 100?m, the PWV values decreased by 9.5?mm, 11.0?mm, 12.2?mm and 12.3?mm during the no, light, moderate and heavy rainfall conditions, respectively. After applying correction using the vertical gradients mentioned above, the average PWV thresholds were 41.8?mm, 52.9?mm, 62.5?mm and 64.4?mm under the no, light, moderate and heavy rainfall conditions, respectively. This study offers another type of empirical threshold to assist the rainfall prediction and can be used to distinguish the rainfall features between different areas in Taiwan.     

微重力下热薄材料燃烧特性的窄通道实验研究

利用高度分别为10 mm,12 mm和14 mm的水平窄通道对微重力环境下热薄材料表面的火焰传     

天基与地基测量数据融合技术在靶场的应用

随着GPS技术的发展,靶场的测控也在逐步由地基测控网过渡到天地结合的一体化综合测控网。如何将天基测量数据同靶场现有的高精度测量带测量数据融合处理,近年成为数据处理的热点话题。本文就某具体任务,对天基和地基测量数据融合技术的方法和工程应用作了详细介绍,给出了初步的结论,提出了天基测量数据在工程应用时应注意的问题和有待进一步分析的问题。     

Development of the Chinese Meridian Project

The Meridian Project is a ground-based network program to monitor Solar-Terrestrial space environment, which consists of a chain of ground-based observatories with multiple instruments including magnetometers, ionosondes, HF and VHF radars, Lidars, IPS monitors, sounding rockets etc. The chain is mainly located in the neighborhood of 120$^\circ$E meridian, and is thus named the Meridian Project. The Meridian Project has officially been approved and supported by the Chinese government and will be finished by the end of 2010. This report gives an overview of the Meridian Project, and reports the recent development since 2008.