基于有向图模型的民机航空电子系统故障诊断

结合民机航电系统外场可更换单元或模块（LRU/LRM）的故障模式及影响分析（FMEA）、故障树 分析和实时性要求,设计了基于时间故障传播图（TFPG）的系统故障诊断元模型和领域模型,研究了基于逻 辑和时间一致性检验的故障诊断算法,使用后向推理和可信度度量列出候选故障集。以飞行管理系统为例,构 造了其功能失效的TFPG 模型,并通过仿真验证了基于TFPG 的诊断在滤除级联效应和关联驾驶舱效应中的有 效性。     

United Nations Human Space Technology Initiative (HSTI)

The Human Space Technology Initiative was launched in 2010 within the framework of the United Nations Programme on Space Applications implemented by the Office for Outer Space Affairs of the United Nations. It aims to involve more countries in activities related to human spaceflight and space exploration and to increase the benefits from the outcome of such activities through international cooperation, to make space exploration a truly international effort.     

飞行器复杂外结构的环境热流计算方法

提出了一种通用的、适合飞行器复杂外结构环境热流的计算方法。采用由环境映射面组成的封闭结构对空间飞行器进行包覆,根据飞行器的轨道特征及瞬时位置,确定映射面上环境热流的大小及方向。在映射封闭结构与飞行器表面组成的辐射换热系统中,通过蒙特卡罗法结合设备表面的镜、漫反射特性,计算环境映射面到各设备表面的辐射传递因子,进而获得在轨飞行器不同位置的瞬时环境热流。计算中考虑了结构表面间的遮挡及多次反射问题,解决了空间飞行器因设备众多、尺寸差异大、表面辐射特性不同等给热流计算带来的困难,并为后期的热分析计算提供精确数据。
     

Preparation of CF/Ni-Fe/CNT/silicone layered rubber for aircraft sealing and electromagnetic interference shielding applications

To meet the needs of preventing information leakage in space engineering and military industry, an efficient method was introduced to obtain layered electromagnetic shielding sealing rubber. The carbon fiber, Ni-Fe coating, and Carbon NanoTube (CNT) were combined by chemical plating and in-situ polymerization to obtain a lightweight (0.14 g/cm²) and thin (1 mm thick) Carbon fiber Fabric (CF)/Ni-Fe/CNT/silicone layered electromagnetic shielding composites. The layered material obtained by adjusting the electroless plating time exhibited a high Shielding Efficiency (SE) of 60.2–85.5 dB in the range of 0–4800 MHz, which can be used for aviation electromagnetic shielding. Carbon fibers and carbon nanotubes mainly attenuated electromagnetic waves through absorption loss, while the nickel-iron alloy coating through reflection loss interacted with the magnetic vector of incident ElectroMagnetic (EM) radiation and magnetic dipoles, therefore, the EM Interference (EMI) shielding composite attenuated EM waves with the “absorption-reflection-absorption” cooperative interaction. Moreover, the flexible fabric substrate adhered with silicone rubber possessed a breaking elongation of 52.3%, which can be utilized as a good sealing material. Simultaneously, the outstanding exothermicity (67.2 °C under the applied voltage of 5 V) makes it possible to be applied in electric heating area. The electromagnetic shielding composites prepared in this paper have good potential in the fields of precision electronic equipment and aviation systems.     

3DG111F等四种双极晶体管空间总剂量效应研究

3DG111F等4种双极晶体管在航天器驱动电子设备中有着重要的应用。研究和掌握空间辐射环境对这些器件产生的总剂量效应有助于了解单机总剂量效应。文章对3DG111F等4种双极晶体管进行了总剂量辐照试验、测量及试验结果分析。研究结果可为单机总剂量效应的分析提供试验依据。     

星敏感器空间辐射效应研究

星敏感器作为一类高灵敏度光电集成部件,易受空间辐射的影响造成性能退化和工作 异常。分析星敏感器的辐射效应机理并制定相应的防护对策,既是当前可靠性增长的基础, 也是今后高性能星敏感器发展的必然要求,而国内尚缺少对这一问题的详细论述。阐述了空 间辐射环境和星敏感器的组成以及工作原理,综述分析了空间辐射效应机理和对星敏感器产 生的影响,并介绍了国外在相应防护对策上的经验,更进一步对影响星敏感器较为严重的瞬 态效应做了较为深入的探讨。
     

飞机电磁环境效应的特性及控制

从飞机设计中电磁环境效应基础专业的技术领域和专业构成的演变出发,本文系统地介绍了电磁环境效应的特性以及与飞机使用和安全的关系,重点论述了飞机研制中来自电磁环境效应的威胁及其控制措施。     

On the effect of considering more realistic particle shape and mass parameters in MMOD risk assessments

One of the primary mission risks tracked in the development of all spacecraft is that due to micro-meteoroids and orbital debris (MMOD). Both types of particles, especially those larger than 0.1 mm in diameter, contain sufficient kinetic energy due to their combined mass and velocities to cause serious damage to crew members and spacecraft. The process used to assess MMOD risk consists of three elements: environment, damage prediction, and damage tolerance. Orbital debris risk assessments for the Orion vehicle, as well as the Shuttle, Space Station and other satellites use ballistic limit equations (BLEs) that have been developed using high speed impact test data and results from numerical simulations that have used spherical projectiles. However, spheres are not expected to be a common shape for orbital debris; rather, orbital debris fragments might be better represented by other regular or irregular solids. In this paper we examine the general construction of NASA’s current orbital debris (OD) model, explore the potential variations in orbital debris mass and shape that are possible when using particle characteristic length to define particle size (instead of assuming spherical particles), and, considering specifically the Orion vehicle, perform an orbital debris risk sensitivity study taking into account variations in particle mass and shape as noted above. While the results of the work performed for this study are preliminary, they do show that continuing to use aluminum spheres in spacecraft risk assessments could result in an over-design of its MMOD protection systems. In such a case, the spacecraft could be heavier than needed, could cost more than needed, and could cost more to put into orbit than needed. The results obtained in this study also show the need to incorporate effects of mass and shape in mission risk assessment prior to first flight of any spacecraft as well as the need to continue to develop/refine BLEs so that they more accurately reflect the shape and material density variations inherent to the actual debris environment.     

发展性教学理论与网络环境下教学改革探讨

本文对赞科夫发展性教学理论的基本观点进行了分析,对发展性教学理论对我国教学改革的影响进行了概括,对发展性教学理论与网络环境下教学改革进行了探讨。     

机场道面改造工程对环境的影响分析

建筑工程在建设环境的同时也在破坏环境。本文从生态、噪声、废水、灰尘及固体废物等方面分析机场道面改造工程带给当地环境的影响,并根据分析结果提出相应的环境保护措施,为今后的机场建设工程减少环境污染提供参考。