Variation of dayside chorus waves associated with solar wind dynamic pressure based on MMS observations

The whistler-mode chorus waves are one of the most important plasma waves in the Earth’s magnetosphere. Generally, the amplitude of whistler-mode chorus waves prefers to strengthen when the energetic fluxes of anisotropic electrons increase outside the plasmapause. This characteristic is commonly associated with the geomagnetic storms or substorms. However, the relationship between the solar wind dynamic pressure (P_sw) and the long-time variation of chorus waves during the quiet period of the geomagnetic activity still needs more detailed investigations. In this paper, based on MMS observations, we present a chorus event just observed in the inner side of magnetopause without obvious geomagnetic storms or substroms. Interestingly, during this time interval, some P_sw fluctuations were recorded. Both the amplitudes and frequencies of chorus waves changed as a response to the variation in P_sw. It proved that the enhancement of P_sw increases the energetic electrons fluxes, which provides free energies for the chorus amplification. Furthermore, the wave growth rates calculated using linear theory increases and the central frequency of the chorus waves shifts to a higher frequency when the P_sw enhancement is greater, which are also consistent well with the observations. The results provide a direct evidence that the P_sw play an important role in the long-time variation of whistler-mode chorus waves inside the magnetopause.     

加速器切线照相技术研究

根据工作实践研究了固体发动机切线照相无损检测中黑度分布、散射线防治、象质计使用、检测概率计算、脱粘临界值确定等技术问题.     

HTPB／HMX推进剂能量特性与工作压强关系的研究

采用标准试验发动机实测结果及理论计算，研究了ＨＴＰＢ／ＨＭＸ推进剂比冲与发动机工作压强之间的关系．研究结果表明，在发动机相同的工作条件下，工作压强由５ＭＰａ提高到１０ＭＰａ可使推进齐比冲净增１０２Ｎ．ｓ／ｋｇ，发动机工作压强最好选取大于６ＭＰａ。这一结果为发动机设计提供了参考依据。     

含氧杂环丁烷粘合剂的先进固体推进剂

综述了国内外氧杂环丁烷粘合剂研究的新进展。介绍了ＢＡＭＯ／ＡＭＭＯ固体推进剂的配方和性能。通过与常规推进剂的比较，分析并指出ＢＡＭＯ／ＡＭＭＯ推进剂的潜在优点。     

基于粒子滤波的被动多基站跟踪算法

针对被动多基站跟踪的实际应用，提出了基于粒子滤波的被动多基站跟踪方法。该方法首先利用两个基站的观测数据融合目标位置，并用第三个基站的观测数据对目标位置进行检验，消除了错误融合位置；然后，推导了被动多基站粒子滤波模型，并根据被动多基站跟踪的特点，提出了顺序重抽样方法，有效地解决了被动多基站跟踪中的高度非线性、非高斯的影响；最后，给出了算法的性能仿真比较。仿真结果表明提出的方法性能明显优于其他跟踪方法（如PMHT、IMM-PDA）。     

搅拌铸造金属基复合材料铸锭的气孔率

阐述了降低气孔率是搅拌铸造工艺制备颗粒增强型金属基复合材料的关键技术。     

Instability and unsteadiness of aircraft wake vortices

This paper presents a review of theoretical and experimental results on stability and other unsteady properties of aircraft wakes. The basic mechanisms responsible for the propagation and the amplification of perturbation along vortices, namely the Kelvin waves and the cooperative instabilities, are first detailed. These two generic unsteady mechanisms are described by considering asymptotic linear stability analysis of model flows such as vortex filaments or Lamb–Oseen vortices. Extension of the linear analysis to more representative flows, using a biglobal stability approach, is also described. Experimental results obtained using LDV, hot wire and PIV in wind tunnels are presented and they are commented upon the light of theory.     

铝粉颗粒燃烧产物的平均弥散度计算研究

采用金属颗粒的扩散燃烧模型和燃烧产物的均匀多相成核理论，对铝粉燃烧所形成的Al2O3平均弥散度进行了计算研究。根据计算结果，对铝粉燃烧区域中的温度、燃烧产物的过饱和度及其凝聚成核速率的变化规律进行了分析讨论。并研究了环境因素对上述多数和铝粉燃烧产物平均弥散度的影响。     

基于光滑粒子流体动力学方法的液滴蒸发问题数值模拟研究

基于光滑粒子流体动力学方法（Smoothed Particle Hydrodynamics，SPH），开展了SPH新算法在蒸发燃烧领域的研究。建立了适用于SPH方法的蒸发数值模型，推导了基于傅立叶热传导公式和菲克扩散定律的SPH离散方程；借鉴VOF方法（Volume of Fluid）的思想，提出了SPH粒子的液相质量分数的概念，以有效表征蒸发过程中的相变问题。采用SPH方法对高温环境中单个液滴的蒸发过程进行数值模拟，结果符合D2定律，与理论模型相一致；在强迫对流环境中，液滴的蒸发过程受到对流作用及表面张力的影响，蒸发速率加快；进一步对双液滴在静止、对流环境中的蒸发过程进行数值模拟研究。结果表明，液滴的间距、滴径对多个液滴的蒸发过程影响至关重要，液滴间距至少在两倍的液滴直径以上，相互之间的影响才可以近似忽略。通过本文研究，拓宽了SPH方法在蒸发相变领域的应用范围，研究结果也能够为进一步的燃烧问题研究奠定基础。     

数字全息测量超高速撞击碎片云实验研究

在中国空气动力研究与发展中心(CARDC)超高速碰撞中心(HIRC)7.6 mm超高速碰撞设备的基础上，搭建纳秒级脉冲激光数字全息系统。提出滤波片和衰减片组合布置，减弱超高速碰撞等离子体自发光、提高信噪比的方法。实验获得了2.25 mm铝球弹丸以4.0 km/s的速度撞击0.5 mm厚铝板形成碎片云的全息图。采用小波变换算法对碎片云全息图进行重建，得到超高速撞击碎片云的三维结构和碎片大小。碎片云的轮廓呈椭球型，分为碎片云的前端、核心和外壳，碎片主要分布在弹丸破碎形成的碎片云核心，存在大碎片，且分布较集中，对后板的损伤也严重