重力卫星星间高精度测距技术研究

卫卫跟踪(SST)技术是当前地球重力场测量最有价值和应用前景的方法之一.高精度星间测距系统是低低卫卫跟踪(SST-ll)重力卫星的关键有效载荷.GRACE卫星携带的K波段测距系统(KBR K Band Ranging System)是一微米量级的测距系统,通过处理高精度的星间距离和距离变化率数据,可以恢复出地球重力场.GRACE后续计划又提出了一种更高精度的激光干涉测距系统.在研究KBR及激光干涉测距系统测量原理的基础上,提出了一种KBR系统的基本结构,详细分析了两种测距系统的关键技术及国内目前的研究水平,提出了我国开展星间测距系统研究的一些建议.      

空间用9Cr18 钢PIII 复合离子注入表面改性工艺研究

采用等离子体浸没离子注人(PⅢ)技术对9Cr18轴承钢表面进行了双注入及共注入Ti+N工艺处理.测试了处理前后试样的显微硬度及真空摩擦因数,并表征分析了表面磨损形貌.结果表明:处理后试样的显微硬度都有大幅提高,最大增幅达68.7％；表面真空摩擦因数由0.15下降到0.08；磨斑尺寸及粗糙度分别减少了54.4％和37.4％.双注入与共注入方式在相同参数下,双注入处理后的试样表面综合性能更加优异.     

荔枝树体钾素分布及累积特点

采用个体直接收获法,采果后把9年生荔枝品种妃子笑和黑叶、3年生妃子笑的根、茎、叶3个器官分成16～20个部位和组织,分别测定各个部位各个组织的生物量和钾(K)含量,并计算K累积量,以探明荔枝树体内K素分布及累积特点,为K肥施用提供依据,结果表明,K在不同器官不同部位含量是不同的,K含量在新成熟复叶柄最高,其次为老叶复叶柄、末级侧枝韧皮部,在根颈、主茎木质部、主根含量较低;荔枝枝干和根系K含量基本上是随着其粗度增加,呈下降趋势,但成年树下降幅度比幼年树的大.成年妃子笑荔枝K素累积量在叶片和枝干较多,根系K累积较少.妃子笑成年末级侧枝K素累积量占整株树K素累积量的58.7%.     

米级高性能氧氟红外玻璃

氧氟玻璃具有良好的透红外性能，且可实现低成本、短周期和大尺寸制备，是高端红外窗口的优质候选材料。随着红外技术的不断革新和光学系统技术的不断进步，对超大尺寸、高性能的红外窗口玻璃提出了更高的要求。基于此，中国科学院上海光学精密机械研究所研究团队经过十余年技术积累，通过精密温场控制技术和脱羟除铂技术，首次突破了国内米级高性能镓酸盐氧氟红外玻璃及大尺寸半球整流罩的制备，此材料可作为红外窗口应用于新一代红外探测等多个领域。     

Landsat 8地表温度产品验证与分析

Landsat系列卫星热波段具有60~120m的空间分辨率，对各种环境监测起到了重要的作用。随着Landsat系列卫星在全球范围内地表温度（land surface temperature，LST）产品的发布，其验证工作也随之展开，然而对于长时间序列的精度验证工作仍然缺乏。以黑河流域中游为研究区，利用研究区内湿地站（SD）、戈壁站（GB）和大满超级站（CJZ）三个气象站的地面测量数据对2013-2016年清晰无云的31景Landsat 8地表温度产品进行了验证与分析，并将Landsat 8地表温度产品与广泛使用的普适性单通道算法（JMS）反演结果进行了对比。结果表明，Landsat 8地表温度产品与普适性单通道算法反演结果精度均较高，在各个站点处R2均优于0.949。基于所有站点分析，Landsat 8地表温度产品精度稍高于普适性单通道算法反演结果。     

Effect of Isothermal Forging on the Microstructure and Mechanical Properties of Mg-8Gd-3Y-0.5Zr Alloy

Aiming at the problems of poor plastic forming ability， narrow forging temperature range， and strain rate sensitivity of rare earth magnesium alloys， a study on the microstructure and mechanical properties of Mg-8Gd-3Y-0.5Zr alloy with different isothermal forging processes is carried out. The microstructure and properties of the alloy in the as-cast， isothermal forged， and post-aging states after forging are studied with optical microscope (OM)， scanning electron microscope (SEM)， and tensile testing. The results show that significant dynamic recrystallization occurs during the isothermal forging process， a fine equiaxed grain structure is formed， and the mechanical properties of the alloy are greatly improved. When the isothermal forging temperature is 460 ºC and the strain rate is 0.02 s－1， the alloy structure performance is the best， the room temperature tensile yield strength (TYS) is 218 MPa， the ultimate tensile strength (UTS) is 299 MPa， and the fracture elongation (FE) is 19.2%. When the alloy is post-forging artificial aged， the α-Mg matrix is dispersed， the Mg5(Gd，Y) phase is precipitated， the UTS of the alloy is increased to 392 MPa， and the FE is reduced to 12.0%.     

Influence of alumina abrasive tool wear on ground surface characteristics and corrosion properties of K444 nickel-based superalloy

K444 nickel-based superalloy is an important material to manufacture the gas turbine due to its excellent mechanical properties at high temperatures and corrosion resistance. Currently,grinding is the mostly used method for the surface finish of the K444 alloy components. However,few studies worked on the effects of the abrasive tool wear on the ground surface characteristics and corrosion properties of K444 alloy. This study uses two different-type alumina abrasive tools, i.e.,white alumina(WA)...     

高精度星间测距与超稳振荡器研究

高精度K频段微波星间测距系统（KBR）采用双路微波测距技术,测量精度可达到1μm／s,是地球重力场测量卫星的三大有效载荷之一。作为整个系统时间基准的超稳定振荡器（USO）,是实现KBR微米级测量精度的关键。文章在研究KBR测距技术的基础上,对USO进行了研究和设计,研制成功的USO的短期频率稳定度达到了5×10^-13／s（Allan方差）,达到了指标要求。     

Hardware qualification for scientific ballooning missions

The European Stratospheric Balloon Observatory (ESBO) initiative aims at simplifying the access to stratospheric balloon missions. We plan to provide platforms and support with instrument design in order to support scientists. During the design process, the inevitable question of qualification for the harsh flight conditions arises. Unfortunately, there is no existing standard for qualification of stratospheric ballooning hardware. Thus, we developed a qualification procedure for use within ESBO and similar projects.In this paper, we present our analysis of the environmental conditions in the stratosphere. While conditions at typical balloon float altitudes are similar to the space environment, there are also some relevant differences. For example, the thermal environment is dominated by radiation and thermal conduction, but the remaining atmosphere still supports a certain amount of convection. The remaining atmospheric pressure in the stratosphere also leads to reduced arcing distances. Vibrational loads are far less than for space missions, but quasi-static or shock loads may occur. The criticality of radiation increases with mission duration.Based on the environmental conditions, we present the qualification procedures for ESBO, which are based on the European Cooperation for Space Standardization (ECSS) standards for space systems. Overtesting against too high requirements leads to overengineering, driving mission cost and mitigating the advantages of balloons over space missions. Therefore, we modified the ECSS standards to fit typical scientific ballooning missions over several days at altitudes up to 40 km. Furthermore, we analyzed design rules for space systems with regard to their relevance for scientific ballooning, including material and component selection. We present the experience from the hardware qualification process for the ESBO prototype STUDIO (Stratospheric UV Demonstrator of an Imaging Observatory). Even though boundary conditions are different for each individual mission, we aimed for a broader approach: We investigated more general requirements for scientific ballooning missions to support future flights.     

Integration of Landsat-8 and Sentinel-1 dataset to extract geological lineaments in complex formations of Tepal mountain area,Shahrood, north Iran

Recently, the detection and extraction of geological lineaments have become an essential analytical technique to find relationships between the characteristics and occurrence of hydrogeology, and tectonic studies. The use of remote sensing, with the progressive development of image enhancement techniques, provides an opportunity to produce more reliable and comprehensive lineament maps. In this paper, semi-automatic approach based on Landsat 8 and Sentinel 1 radar data is proposed for lineaments extraction and validation. The combined method of linear filtering and automatic line module ensures a high degree of accuracy resulting in a lineament map. Based on identified lineaments, Sentinel1 is more capable of detecting edges than Landsat8, but the primary orientation lineaments extracted from Landsat8 and Sentinel1 were different. So, by combining band6 of Landsat8, and VV and VH polarization of Sentinel1, the area lineaments were extracted with high accuracy. Rose diagram showed the extracted lineaments' orientation is in good compliance with the region's existing faults. Also, the formations' lineament length density has good consistent with the density of the faults in the geological map.