圆管孔边角裂纹剪切型应力强度因子的封闭解

 在飞机全动平尾大轴中,经常出现孔边角裂纹。本文提出了一种新的工程-解析方法,导出了飞机平尾大轴孔边角裂纹剪切型应力强度因子的封闭解。这种能量释放方法非常节省机时与人力,可以获得大量系统的新结果。     

小卫星星务管理技术

阐述了第三代星上测、控、管系统 (星务系统 )的基本设计思想 ,它是基于现场控制、内嵌式微控制器和星上现场网络等概念开发的一项卫星新技术。该项技术实现传统卫星上的系统功能集成 ,具有全数字化、全网络连接、全分散式和在线组态的特点。该文给出星务系统与过去星上测控系统相比的最大两个概念跳跃 :内嵌式 ,整星全网络化。星务系统构成了一种星载柔性服务系统 ,用现场网络来协调、控制星上智能设备的相互联系 ,完成包括信息流、动作流、能量流的动态作业 ,可以在线下载任务和在线整定参数 ,改变传统卫星测控系统接口层的封闭性和专用性 ,实现星上设备“即连即用”。这就是构成星上集成电子学系统一体化的关键 ,构成“平台化”的核心。按星务系统技术设计 ,可以提高整星级可靠性和运行功能有效性 ,并可以加快研制进度和降低开发成本。该文还指出了星务系统和数管系统的不同 ,CAN总线和 15 5 3B的不同     

微小卫星数据存储器单粒子作用的检测及纠错

因为辐射导致的单粒子翻转效应（SEU）,使得微小卫星星上存储器在太空运行时其内容可能出现小概率错误,这种错误会影响计算机系统的运行和关键数据。文章阐述了“清华一号”微小卫星数据处理系统对SEU的纠错方法,分别介绍了实现（12,8）和（39,32）的汉明码纠错设计和基于FPGA的三模块冗余纠错编码方法,并分析了这些方法的工作原理和过程。     

叶根开槽叶栅对角区分离的控制

吸力面/端壁角区的分离是轴流压气机流场中固有的现象。本文采取在叶根处开槽的方法,利用压力梯度从叶片压力面向叶片吸力面引入一股射流增加分离区的能量,从而减缓分离。通过数值模拟的方法分析了在不同攻角下槽的位置、大小和形状对扩压叶栅性能的影响,计算结果初步表明,在非设计工况下适当位置、大小和形状的槽可以有效地减小角区分离。     

First spaceborne demonstration of BeiDou-3 signals for GNSS reflectometry from CYGNSS constellation

The full constellation of Chinese Global Navigation Satellite System (GNSS) BeiDou-3 has been deployed completely and started fully operational service. In addition to providing global Positioning, Navigation and Timing (PNT) services, the BeiDou-3 satellites transmissions can also be used as the sources of illumination for Earth Observation (EO) with a bistatic radar configuration. This innovative EO concept, known as GNSS reflectometry (GNSS-R), allows to measure the Earth surface characteristics at high resolution via the reflected L-band radar signals collected by a constellation of small, low cost and low Earth orbiting satellites. For the first time in orbit, earth reflected BeiDou-3 signal has been detected from the limited sets of raw data collected by the NASA’s Cyclone GNSS (CYGNSS) constellation. The feasibility of spaceborne BeiDou-3 reflections on two typical applications, including sea surface wind and flooding inundation detection, has been demonstrated. The methodology and results give new strength to the prospect of new spaceborne GNSS-R instruments and missions, which can make multi-GNSS reflectometry observations available to better capture rapidly changing weather systems at better spatio-temporal scales.     

Paths not taken – The Gossamer roadmap’s other options

Highly efficient low-thrust propulsion is increasingly applied beyond commercial use, also in mainstream and flagship science missions, in combination with gravity assist propulsion. Another recent development is the growth of small spacecraft solutions, not in size but in numbers and individual capabilities.Just over ten years ago, the DLR-ESTEC Gossamer Roadmap to Solar Sailing was set up to guide technology developments towards a propellant-less and highly efficient class of spacecraft for solar system exploration and applications missions: small spacecraft solar sails designed for carefree handling and equipped with carried application modules.Soon, in three dedicated Gossamer Roadmap Science Working Groups it initiated studies of missions uniquely feasible with solar sails such as Displaced L₁ (DL1) space weather advance warning and monitoring, Solar Polar Orbiter (SPO) delivery to very high inclination heliocentric orbit, and multiple Near-Earth Asteroid (NEA) rendezvous (MNR). Together, they demonstrate the capability of near-term solar sails to achieve at least in the inner solar system almost any kind of heliocentric orbit within 10 years, from the Earth-co-orbital to the extremely inclined, eccentric and even retrograde. Noted as part of the MNR study, sail-propelled head-on retrograde kinetic impactors (RKI) go to this extreme to achieve the highest possible specific kinetic energy for the deflection of hazardous asteroids.At DLR, the experience gained in the development of deployable membrane structures leading up to the successful ground deployment test of a (20 m)², i.e., 20 m by 20 m square solar sail at DLR Cologne in 1999 was revitalized and directed towards a 3-step small spacecraft development line from as-soon-as-possible sail deployment demonstration (Gossamer-1) via in-flight evaluation of sail attitude control actuators (Gossamer-2) to an envisaged proving-the-principle flight in the Earth-Moon system (Gossamer-3). First, it turned the concept of solar sail deployment on its head by introducing four separable Boom Sail Deployment Units (BSDU) to be discarded after deployment, enabling lightweight 3-axis stabilized sailcraft. By 2015, this effort culminated in the ground-qualified technology of the DLR Gossamer-1 deployment demonstrator Engineering Qualification Model (EQM). For mission types using separable payloads, such as SPO, MNR and RKI, design concepts can be derived from the BSDU characteristic of DLR Gossamer solar sail technology which share elements with the separation systems of asteroid nanolanders like MASCOT. These nano-spacecraft are an ideal match for solar sails in micro-spacecraft format whose launch configurations are compatible with ESPA and ASAP secondary payload platforms.Like any roadmap, this one contained much more than the planned route from departure to destination and the much shorter distance actually travelled. It is full of lanes, narrow and wide, detours and shortcuts, options and decision branches. Some became the path taken on which we previously reported. More were explored along the originally planned path or as new sidings in search of better options when circumstance changed and the project had to take another turn. But none were dead ends, they just faced the inevitable changes when roadmaps face realities and they were no longer part of the road ahead. To us, they were valuable lessons learned or options up our sleeves. But for future sailors they may be on their road ahead.     

扩压叶栅角区-吸力面造型设计及流动控制机理

通过数值模拟,分别针对扩压叶栅的设计工况与角区失速工况进行叶身/端壁融合与吸力面优化造型设计,分析其流场结构与性能的变化,并探究两种优化造型对压气机性能改善的机理。优化结果表明:在设计工况下,优化造型吸力面凹陷,使得吸力面附面层厚度变薄,最大端壁融合位置靠近尾缘,角区低能流体在压力梯度的作用下转移并减少,分离结构得到明显控制,损失降低;在角区失速工况下,优化造型吸力面凸起,最大端壁融合位置靠近前缘,使得前缘分离结构显著减弱,当流体在进入吸力面前缘时提前附着,前缘分离区减小甚至消失,损失降低。根据两种造型流场结构特点与控制机理,可构造出在多工况下具有显著作用的叶身-端壁融合造型。     

Reliability and reliability sensitivity analysis of structure by combining adaptive linked importance sampling and Kriging reliability method

The application of reliability analysis and reliability sensitivity analysis methods to complicated structures faces two main challenges: small failure probability (typical less than 10⁻⁵) and time-demanding mechanical models. This paper proposes an improved active learning surrogate model method, which combines the advantages of the classical Active Kriging – Monte Carlo Simulation (AK-MCS) procedure and the Adaptive Linked Importance Sampling (ALIS) procedure. The proposed procedure can, on the one hand, adaptively produce a series of intermediate sampling density approaching the quasi-optimal Importance Sampling (IS) density, on the other hand, adaptively generate a set of intermediate surrogate models approaching the true failure surface of the rare failure event. Then, the small failure probability and the corresponding reliability sensitivity indices are efficiently estimated by their IS estimators based on the quasi-optimal IS density and the surrogate models. Compared with the classical AK-MCS and Active Kriging – Importance Sampling (AK-IS) procedure, the proposed method neither need to build very large sample pool even when the failure probability is extremely small, nor need to estimate the Most Probable Points (MPPs), thus it is computationally more efficient and more applicable especially for problems with multiple MPPs. The effectiveness and engineering applicability of the proposed method are demonstrated by one numerical test example and two engineering applications.     

固液混合火箭发动机研究进展

固液火箭发动机因其推进剂能量较高、安全性好、易实现推力调节、可实现多次启停、药柱稳定型好、温度敏感性低、环保性佳和经济性好的特点,十分符合下一代航天平台绿色环保、智能随控、快速响应的发展需求,在探空火箭、亚轨道飞行器、靶标、小型运载火箭、助推器、上面级动力系统、姿轨控动力系统、着陆器和其他许多民用商业航天领域中都具有良好的应用前景。分析了固液火箭发动机的国内外发展现状及发展趋势,对国内外固液火箭发动机相关的典型项目、工程应用和关键技术发展情况进行了回顾和总结,并以此为基础总结固液火箭发动机技术的发展趋势和有待进一步突破的关键技术。     

Experimental Study of Corner Stall in a Linear Compressor Cascade

In order to gain a better knowledge of the mechanisms and to calibrate computational fluid dynamics (CFD) tools including both Reynolds-averaged Navier-Stokes (RANS) and large eddy simulation (LES),a detailed and accurate experimental study of corner stall in a linear compressor cascade has been carried out.Data are taken at a Reynolds number of 382 000 based on blade chord and inlet velocity.At first,inlet flow boundary layer is surveyed using hot-wire anemometry.Then in order to investigate the effects of incidence,measurements are acquired at five incidences,including static pressures on both blade and endwall surfaces measured by pressure taps and the total pressure losses of outlet flow measured by a five-hole pressure probe.The maximum losses as well as the extent of losses of the corner stall are presented as a function of the investigated incidences.