驻波电帘除尘效率的实验研究

月尘将对在月球表面进行巡视探测的设备产生严重不利影响。文章分析了利用驻波电帘对探测器的太阳电池板进行尘埃清除和防护,给出了电帘表面的电场分布,颗粒在电帘表面的受力状态和起跳、跃移过程,通过实验测量给出了电帘结构各参数对除尘效率的影响,制备了自清洁演示系统,对电帘的能耗进行了测定;表明驻波电帘是月表探测任务中尘埃防护的有效方法。     

航空发动机拆换率平滑方法研究

结合发动机视情维修策略的特点,建立起基于发动机剩余在翼时间预测方法的以飞机为对象的发动机群总保障成本的混合整数非线性规划模型,并提出了一种启发式拆换率平滑方法——SSPT算法,并以CF6型发动机的使用数据为例与其它三种算法进行分析比较.研究结果表明应用SSPT算法制定维修调度计划,能够使总保障成本最低、保障率最高、平均拆换率下降,并得到较好的拆换率平滑效果.      

多舱段载人航天器CO2去除系统性能仿真分析

多舱段载人航天器通常由主控舱段利用舱间通风对组合体空气环境参数进行集中控制.利用Ecosimpro建立了一种多舱段载人航天器CO₂去除系统性能仿真分析模型,包括舱体模块、乘员模块、CO₂净化模块、舱间通风模块,并对三舱段载人航天器CO₂去除系统性能进行了计算分析.结果表明,当净化装置进风量为0.007 2 kg/s,非主控舱段驻留人数达到6人时,会造成非主控舱段CO₂分压超出700 Pa的指标上限.此时增大舱间通风量对降低非主控舱段CO₂分压的效果并不明显,有效的控制方式是增大净化装置进风量.当净化装置进风量增加至0.011 3 kg/s时,非主控舱段CO₂分压可降至700 Pa以下.该工作有助于加快载人航天器空气环境控制系统的设计和改进流程.     

Evaluation of a satellite constellation for active debris removal

This paper analyzes an example of a three-dimensional constellation of debris removal satellites and proposes an effective constellation using a delta-V analysis that discusses the advisability of rendezvousing satellites with space debris. Lambert?s Equation was used to establish a means of analysis to construct a constellation of debris removal satellites, which has a limit of delta-V injection by evaluating the amount of space debris that can be rendezvoused by a certain number of removal satellite. Consequently, we determine a constellation of up to 38 removal satellites for debris removal, where the number of space debris rendezvoused by a single removal satellite is not more than 25, removing up to 584 pieces of debris total. Even if we prepare 38 removal satellites in their respective orbits, it is impossible to remove all of the space debris. Although many removal satellites, over 100 for example, can remove most of the space debris, this method is economically disproportionate. However, we can also see the removal satellites are distributed nearly evenly. Accordingly, we propose a practical two-stage strategy. The first stage is to implement emergent debris removal with the 38 removal satellites. When we find a very high probability of collision between a working satellite and space debris, one of the removal satellites in the constellation previously constructed in orbit initiates a maneuver of emergent debris removal. The second stage is a long-term space debris removal strategy to suppress the increase of space debris derived from collisions among the pieces of space debris. The constellation analyzed in this paper, which consists of the first 38 removal satellites, can remove half of the over 1000 dangerous space debris among others, and then the constellation increases the number of the following removal satellites in steps. At any rate, an adequate orbital configuration and constellation form is very important for both space debris removal and economic efficiency. Though the size of constellation of debris removal satellites would be small originally, such a constellation of satellites should be one of the initial constellations of removal satellites to ensure the safety of the future orbital environment.     

空间碎片环境现状与主动移除技术

概述了空间碎片环境现状和对航天活动的影响,讨论了空间碎片主动移除对保持空间碎片环境稳定的必要性。空间碎片研究重心先从防护转向减缓,再转到主动移除,最终是清洁空间。评述了空间碎片主动移除技术现状,指出天基激光主动移除空间碎片技术具有很好的工程应用潜力。     

一种低轨废弃目标的捕获与回收方案

如何清除轨道上日益增多的废弃目标已成为国内外航天活动无法回避的现实问题和迫切需解决的问题.针对低轨道大型废弃目标回收问题,基于天基回收技术的概念,提出了一种新型组合式柔性捕获回收方案.使用空间绳网捕获废弃目标后通过充气式增阻离轨方式进行被动离轨,再利用充气式进入减速技术(inflatable entry deceler...     

球头模具铣刀刀刃和前刀面成形的研究

提出了一种使球头模具铣刀具有良好切削性能,可以大大改善球顶点及其附近处切削条件的刀刃构造形式和前刀面形状;根据包络原理详细分析和研究了成形这种球头铣刀刀刃及前刀面的磨削（或铣削）系统的合理运动方式,并导出了各运动间的函数关系;给出了一计算实例。     

基于启发强化学习的大规模ADR任务优化方法

随着航天事业的蓬勃发展,空间碎片尤其是低轨碎片已成为航天任务不可忽视的威胁。考虑到碎片清除的紧迫性和成本,低轨多碎片主动清除（ADR）技术成为缓解现状的必要手段。针对大规模多碎片主动清除任务规划问题,首先,基于任务规划的最大收益模型,提出一种强化学习（RL）优化方法,并依照强化学习框架定义了该问题的状态、动作以及收益函数;其次,基于高效启发因子,提出一种专用的改进蒙特卡罗树搜索（MCTS）算法,该算法使用MCTS算法作为内核,加入高效启发算子以及强化学习迭代过程;最后,在铱星33碎片云的全数据集中检验了所提算法有效性。与相关MCTS变体方法以及贪婪启发算法对比,所提方法能在测试数据集上更高效地获得较优规划结果,较好地平衡了探索与利用。     

Evolution of convex structure during counter-rotating electrochemical machining based on kinematic modeling

Counter-rotating electrochemical machining (CRECM) is a novel electrochemical machining (ECM) method, which can be used to machine convex structures with complex shapes on the outer surface of casings. In this study, the evolution of the convex structure during CRECM is studied. The complex motion form of CRECM is replaced by an equivalent kinematic model, in which the movement of the cathode tool is realized by matrix equations. The trajectory of the cathode tool center satisfies the Archimedes spiral equation, and the feed depth in adjacent cycles is a constant. The simulation results show that the variations of five quality indexes for the convex structure: as machining time increases, the height increases linearly, and the width reduces linearly, the fillets at the top and root fit the rational function, and the inclination angle of the convex satisfies the exponential function. The current density distributions with different rotation angles is investigated. Owing to the differential distribution of current density on workpiece surface, the convex is manufactured with the cathode window transferring into and out of the processing area. Experimental results agree very well with the simulation, which indicates that the proposed model is effective for prediction the evolution of the convex structure in CRECM.     

单次任务中主动清除多块碎片的仿真分析

针对国内外空间活动产生的碎片,文章采用多脉冲推力作用下的轨道机动仿真方法,在主要考虑总速度增量为2 km/s的约束条件下,计算碎片清除所需要的速度增量、任务时间以及清除个数。仿真结果表明,单次任务可以清除12块分布比较集中的碎片。研究结果可为我国今后空间碎片清扫任务的设计提供参考依据。