EXPERIMENTAL STUDY OF FRETTING WEAR OF TITANIUM ALLOY BEFORE AND AFTER LASER BEAM QUENCHING

ＥＸＰＥＲＩＭＥＮＴＡＬＳＴＵＤＹＯＦＦＲＥＴＴＩＮＧＷＥＡＲＯＦＴＩＴＡＮＩＵＭＡＬＬＯＹＢＥＦＯＲＥＡＮＤＡＦＴＥＲＬＡＳＥＲＢＥＡＭＱＵＥＮＣＨＩＮＧＤａｉＺｈｅｎｄｏｎｇ，ＴａｎｇＹａｘｉｎｇ，ＺｈａｎｇＨｏｎｇ，ＷａｎｇＭｉｎ（Ｄｅｐａｒｔ...     

非均匀弹性地基上梁横向振动的渐近解法

研究非均匀弹性地基上梁的横向振动，提供了一种既能保证较高精度、计算又非常简单的固有频率的渐近解法，作为算例，给出了非均匀弹性地基上悬臂梁固有频率的一级近似计算公式并将计算结果与连续质量有限元素法的计算结果作了比较。     

分区式线型阱设计及其离子囚禁性能分析

基于分区式线型阱的汞离子微波钟已在国际上首次实现了空间在轨飞行验证，为今后深空探测技术领域实现单向导航奠定了基础。设计了一种基于“四极阱+十二极阱”的分区式线型离子阱，主要采用离子数密度分布模型，数值分析了轴向和径向的势阱结构特征，研究了该离子阱的离子囚禁性能，给出了囚禁离子的设计参数，估算了该离子阱应用于汞离子微波钟的二阶多普勒频移大小。论证了四极阱中实现光抽运与荧光探测，十二极阱中实现离子与微波相互作用及自由演化稳定存储功能的可行性。该项工作对于高性能离子囚禁钟和质谱仪的设计具有一定借鉴意义。     

Ion thruster accelerator grid erosion mechanism under extreme conditions of cylindrical erosion and chamfer erosion

In this paper, the abnormal experimental phenomenon on barrel erosion under extreme working conditions in the ultra-long life experiment(>10000 h) of ion thruster ion optics is studied by the Immersed-Finite-Element Particle-In-Cell Monte-Carlo-Collision(IFE-PIC-MCC) method and the grid erosion evaluation model. The transport process of beam ions and Charge Exchange(CEX) ions in the grid system, and the characteristics and mechanisms of the aperture barrel erosion under extreme erosion condit...     

基于数字孪生的航天电推进器优化设计方法

针对以引力波探测为代表的空间科学任务和以“国网星座计划”为代表的商用卫星网络任务对推进器的特殊需求，本文提出了一种基于数字孪生的推进器优化设计方法。该方法首先建立由机理模型模块和测试数据集模块组成的数字孪生体。机理模型模块依据推进器的物理过程建立模型，对难以测量的数据进行仿真模拟；测试数据集模块通过实验对推进器进行测试，依靠测试数据建立可测参数的数学模型。将数字孪生体与实验进行对比，通过对比结果反馈调节机理模块从而不断提高孪生体的准确性，最终为优化设计提供依据。结果表明：(1)该方法能够构建微波离子推进器的数字孪生体；(2)该数字孪生体的预测结果存在一定差异，通过分析发现该差异与机理模型的精细度以及测试数据集的数据量有关。     

Plasma transport simulation under different conditions and optimization analysis of dual-stage grid ion thruster

In order to study the extraction and acceleration mechanism of the dual-stage grid, a three-dimensional model based on the Particle-In-Cell/Monte Carlo Collision(PIC/MCC) method is performed. Dual-stage grid ion thruster is a new type of electrostatic ion thruster, which can break through the limitations of traditional gridded ion thrusters, and greatly improve the specific impulse. The high performance also makes the grid sensitive to operating parameters. In this paper,the influence of grid pa...     

基于运行模态的复合材料梁脱层损伤识别

为了实现复合材料结构损伤的定位与定量识别,利用传递率函数的运行模态分析方法探讨了复合材料梁无损检测方法,通过对加速度传递函数的最小二乘拟合,得到结构的模态频率和阻尼,对传递率函数矩阵奇异值分解,得到结构的振型.运用曲率模态(CMS)和曲率模态变化率(CMSI)作为损伤指标,对具有单损伤、多损伤和不同损伤程度的复合材料梁...     

Numerical simulations of a continuously injected relativistic electron beam relaxation into a plasma with large-scale density gradients

In this paper the influence of large-scale decreasing and increasing gradients of the density of magnetized plasma on the relaxation process of a continuously injected relativistic electron beam with an energy of 660 keV ($v_b=0.9c$) and a pitch-angle distribution is studied using particle-in-cell numerical simulations. It is found that for the selected parameters in the case of a smoothly decreasing gradient and in a homogeneous plasma the formation of spatially limited plasma oscillations of large amplitude occurs. In such cases, modulation instability develops and a long-wave longitudinal modulation of the ion density is formed. In addition, the large amplitude of plasma waves accelerates plasma electrons to energies on the order of the beam energy. In the case of increasing and sharply decreasing gradients, a significant decrease in the amplitude of plasma oscillations and the formation of a turbulent ion density spectrum are observed. The possibility of acceleration of beam electrons to energies more than 2 times higher than the initial energy of the beam particles is also demonstrated. This process takes place not only during beam propagation in growing plasma density, but also in homogeneous plasma due to interaction of beam particles with plasma oscillations of large amplitude.