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.     

Microstructure and Martensitic Transformation Behaviors of Explosively Welded NiTi/NiTi Laminates

The study is a first attempt to prepare bulk NiTi/NiTi shape memory alloy (SMA) laminates with a macroscopic heterogeneous composition by explosive welding and investigate their microstructures and martensitic transformation behaviors. After explosive weld- ing, a perfect interfacial bonding between the two components and a reversible martensitic transformation are realized in the tandem. Results show achievement of a fine granular structure and the maximum value of microhardness near the welding interface because of the excessive cold plastic deformation and the high impact velocity during the explosive welding. Meanwhile, the effects of aging on the transformation of the welded tandem are investigated by differential scanning calorimeter (DSC) and subject to discussion. The trans- formation temperatures of NiTi/NiTi SMAs increase with the rise of the aging temperature. The experimental results indicate the shape memory properties of NiTi/NiTi SMA fabricated by explosive welding can be improved by optimizing the aging technology.     

燃烧诊断用多功能药条燃烧器系统

本文指出了将固体推进剂药条燃烧器用于实验室燃烧诊断的重要性和必要性,介绍并评述了三十余年来药条燃烧器的发展历程,提出了一种具有多种功能的充压视窗药条燃烧器的设计方案和性能指标,对这种燃烧器的初步实验结果进行了分析讨论,并预示了它的应用前景.     

薄膜材料和纤维材料的热扩散率测量

介绍了激光热波技术用于测量薄膜材料和纤维材料热扩散率的测试系统，测试温度范围为２０－５００℃。讨论了测量中的各种试验条件、基本公式和误差分析。在理论上此系统可以应用于任何厚度样品面向热扩散率的测量。     

激光微推进器用于微小卫星的姿轨控仿真

为研究激光微推进器用于微小卫星在轨空间飞行任务的可行性,利用已建立的激光推进微小卫星仿真平台,对微小卫星在轨姿态调整、轨道维持和轨道转移等飞行任务进行了仿真和分析。仿真结果表明,星载激光微推进器可满足在轨微小卫星的高控制精度姿态调整、近地观测轨道维持以及较长时间要求的轨道转移等空间任务对推进系统的要求。     

含能工质激光烧蚀推进效率分析

为了分析在高能脉冲激光作用下,含能工质化学能对推进性能的影响,在实验的基础上,对固体含能工质激光烧蚀推进过程中的能量效率进行了初步分析。结果表明:含能工质自身化学能在激光推进中具有重要的作用;与火箭推进方式相比,固体含能材料激光烧蚀推进方式的能量利用效率更高。     

固体火箭燃烧室内微粒分布的实验研究

介绍一种实时脉冲取样器用于测定固体火箭燃烧室内凝相微粒尺寸分布技术，实验结果表明，含铝推进剂微粒呈二模态或三模分布，燃烧室内压力大，微粒趋大，燃烧室压力很小，微粒亦趋大，有一最小尺寸的压力值，残渣影响微粒尺寸测量，而推进剂燃烧特性将直接影响着微粒尺寸分布。     

碳纤维增强树脂基复合材料中激光脉冲能量对超声L波的影响

利用不同激光脉冲与碳纤维树脂基复合材料相互作用产生的瞬态热效应激发超声纵波(L波),分析激光脉冲能量对L波的影响.试验结果表明,激励声波的幅度直接与脉冲的能量相关,在高能量区的纵波幅度明显比在低能量区的大,缺陷的存在明显影响L波的存在和幅度.     

LDA测量方截面U型旋转通道速度分布

为了深入了解旋转涡轮叶片内冷通道中的流动特性，用激光多谱勒测速仪(LDA)测量了旋转U型通道中的平均速度分布。通道的横截面积为50mm×50mm，弯管的平均半径与水利直径的比值为0.65，旋转轴与弯管的曲率轴平行。在Re＝105时分别测量了转动数Ro＝0，0.2和-0.2三种旋转状态下的速度分布。在这三种情况下弯管内侧θ＝90°至下游一定范围内都有流动的分离出现。由于不同的旋转状态二次流的方向和强弱不同，导致了分离区大小和通道中速度分布的不同。     

Ti-24A1-17 Nb合金的激光焊接

研究了Ti-24Al-17Nb合金的激光焊接及其接头的力学性能.研究结果表明,连续激光氦气双面保护可以获得保护效果可靠、无缺陷、成型良好的焊接接头.焊接热输入增大不利于接头的纵向弯曲塑性,而接头的横向拉伸强度与母材基本相同,塑性可以接近母材的塑性,达到14%～17%.