压电智能结构传感器/作动器位置优化研究

研究压电主动结构振动控制当中传感器／作动器的位置优化问题。从系统的状态空间方程出发，在系统可控性、可观性Grammian矩阵特征值的基础上来描述性能指标，以控制能量最小化和传感能量最大化作为优化目标，利用遗传算法（GE）进行优化计算，计算过程中对传感器／作动器的位置采用二进制编码加以描述。通过对一压电板结构的仿真计算对该方法进行了验证，优化计算结果与枚举法结果完全相符，从而证明了方法的有效性。     

低特征信号绝热层用硅氧烷树脂研究

简述了用于固体火箭发动机低特征信号绝热层研制的发展现状。对多种硅氧烷树脂（ＲＴＶ）进行了筛选和信号透过率，热失重，力学及粘接笥能试验。试验结果表明，与使用ＥＰＤＭ绝热层材料相比，使用ＲＴＶ绝热层材料，火箭发动机燃烧室羽流具有较高的信号透过率；ＲＴＶ还具有较好的热性、力学及粘接性能，适于用作低特征信号绝热层的基体材料。     

战斗机扭转敏捷性计算分析

介绍了战斗机扭转敏捷性概念及其尺度。为计算扭转敏捷性指标,提出了确定T_(RC90)指标的仿真计算方法。通过对某战斗机的实例计算,反映出该机的扭转敏捷性与机动性,操纵性之间的关系,其变化规律类似于国外飞机的试飞结果。但由于在仿真计算中作了某些假设,特别是未考虑驾驶员动力学特性和操纵系统动力学特性,故所得结果有待于今后在固基模拟器上验证、改进。     

防静电白色热控涂层的耐空间环境及工艺性能

研究了防静电白色热控涂层（ACR-1）的耐空间环境性能及工艺性能。在模拟空间环境设施中研究了紫外辐照、电子辐照和质子辐照对涂层太阳吸收率（αs）的影响。结果表明ACR-1在地球静止轨道环境中具有较高的稳定性；经过3000当量太阳小时（ESH）的紫外光辐照后，△αs为0．02；质子辐照效应对涂层仅。的变化影响较大。另外，研究了涂层厚度对αs和其与基材结合力的影响，以及基材表面处理工艺对涂层在-196—150℃冷热交变循环试验中可靠性的影响。     

C/C—SiC复合材料的制备与性能

采用化学气相渗透（CVI）法和液相浸渍有机物先驱体混合工艺制备了C／C－SiC复合材料，并对复合材料力学性能、抗烧蚀性能和抗氧化性能进行表征。结果表明：制备的C／C－SiC复合材料在基本保证C／C复合材料力学性能的基础上，抗氧化和抗烧蚀性能得以大幅度提高，提出了制备兼具C／C复合材料与陶瓷材料的技术途径。     

机场跑道耐冲磨混凝土的研究

针对机场跑道混凝土所处环境、受力特环以及对修补材料的性能要求，提出采用超塑化、膨胀、树脂掺入等复合手段，大幅度改善钢纤维混凝土基质材料的结构性能。通过高效粘结，充分发挥了钢纤维的增韧抗冲击作用，使这种有机无机复合、金属非金属复合的混凝土材料具有优异的抗冲击性和耐磨性。实验结果表明，机场跑道混凝土特别是飞机起降区域板块适合采用SPE－SFRC复合材料。在基础稳定的条件下，基本可在设计使用年限内无须大修，其社会、经济效益巨大。     

MONITORING OF ENERGETIC PARTICLE ENVIRONMENT INSIDE THE CHINA-BRAZIL EARTH RESOURCE SATELLITE

On 14 October 1999, the Chinese-Brazil earth resource satellite (CBERS-1) was launched in China. On board of the satellite there was an instrument designed at Peking University to detect the energetic particle radiation inside the satellite so the radiation fluxes of energetic particles in the cabin can be monitored continuously. Inside a satellite cabin, radiation environment consists of ether penetrated energetic particles or secondary radiation from satellite materials due to the interactions with primary cosmic rays.Purpose of the detectors are twofold, to monitor the particle radiation in the cabin and also to study the space radiation environment The data can be used to study the radiation environment and their effects on the electronics inside the satelhte cabin. On the other hand, the data are useful in study of geo-space energetic particle events such as solar proton events, particle precipitation and variations of the radiation belt since there should be some correlation between the radiation situation inside and outside the satellite.The instrument consists of two semi-conductor detectors for protons and electrons respectively. Each detector has two channels of energy ranges. They are 0.5-2MeV and ≥2MeV for electrons and 5-30MeV and 30-60MeV for protons. Counting rate for all channels are up to 104/(cm2@s)and power consumption is about 2.5 W. There are also the additional functions of CMOS TID (total integrated dose) effect and direct SEU monitoring. The data of CBMC was first sent back on Oct. 17 1999 and it's almost three years from then on. The detector has been working normally and the quality of data is good.The preliminary results of data analysis of CBMC not only reveal the effects of polar particle precipitation and radiation belt on radiation environment inside a satellite, but also show some important features of the geo-space energetic particle radiation.As one of the most important parameters of space weather, the energetic charged particles have great influences on space activities and ground tech nology. CBMC is perhaps the first long-term on-board special equipment to monitor the energetic particle radiation environment inside the satellite and the data it accnmulated are very useful in both satellite designing and space research.     

微量气味成分的自由基簇射技术脱除

研究了密闭体系中微量气味污染物的脱除作用与机理。采用电晕放电自由基簇射技术，实现了人工环境下氧化性自由基的产生；以电子自旋共振技术（ESR）对气态羟基自由基实施了捕集和检测，验证了在羟基自由基的存在下NH3被氧化为N2。通过U—I获得反应能耗和污染物去除效率为：NH3脱除效率为90．6％时，能耗1．0W。研究表明：自由基簇射技术产生的氧化性自由基可有效去除密闭生存环境中产生的NH3等微量有害气味成分，将在空间站等密闭生存系统内空气净化中有很好的应用前景。