某型航空活塞发动机调贫阈值的实验测定

基于某型航空活塞发动机在运行中因过度调贫而导致大量排气门烧蚀的现象,为控制调贫幅度获取便于工程实践操作的安全调贫阈值,通过测量排气门密封面附近气门体的实际运行温度,获取了该型发动机上气门运行温度与排气温度之间的对应关系,解决了以排气温度(EGT) 为参变量间接衡量气门体实际运行温度的工程问题。结果表明:利用该对应关系在确保排气门密封面上保护膜不被破坏的前提下得出该型发动机上安全调贫阈值为排气温度为732℃,经70000飞行小时的实践验证表明此阈值可靠。     

Effects of Atomic Oxygen Irradiation on Transparent Conductive Oxide Thin Films

作为一种功能薄膜,透明导电氧化物(TCO)薄膜在飞行器的抗原子氧(AO)涂层和太阳能电池领域有着巨大的应用价值。ZnO:Al(ZAO)和In2O3:Sn(ITO)薄膜是目前研究和应用最广泛的TCO。本文对ITO薄膜和ZAO薄膜进行了不同通量的AO辐照。通过对辐照前后样品的X射线衍射、扫描电镜及霍耳效应的表征及测试,研究了AO辐照对这两种TCO薄膜的结构、性能及电学特性的影响。研究表明AO辐照对ZAO薄膜表面有明显的侵蚀作用,但对其结构和导电性能没有明显影响。对于ITO薄膜,随着AO通量的增大,其载流子浓度逐渐下降从而导致了电阻率的提高,电阻率的最大变化达到了21.7%。     

无扩口导管预装成形技术

介绍了挤压式无扩口导管的成形原理及成形设备,并对成形工艺进行了分析。通过大量试验得到了保证槽深尺寸下的成形压力参考值,对导管预装成形的质量控制有一定的指导意义。     

基于S7-200自由口的无线数据传输系统的实现

本文应用S7-200的自由口通讯技术,建立了S7-200与无线电台的无线数据传输系统,实现了现场采集数据的无线传输。重点分析了S7-200的自由口通讯的技术规范,制订了自由口通讯协议,完成了无线数据传输系统的设计。     

直升机传动系统花键连接轴的动力失稳

为有效传递扭矩,花键联轴器在旋转机械中得到了广泛应用,直升机传动系统也采用了这种结构形式,因此对花键连接超临界轴的稳定性进行理论分析,并在直升机尾传动轴上开展相应的实验和验证工作.通过安装和拆卸花键两端用于润滑油脂密封的O型圈,来改变花键的工作状态,实现了尾传动轴由相对稳定向完全不稳定的转变.研究表明:由花键及其两端支承表面处产生的摩擦形成的内阻尼是导致尾传动轴发生自激振动的根源;通过改善花键连接处的工作状态,能有效改善超临界转轴的稳定性,这对直升机传动系统超临界轴的设计有一定指导意义.     

铝铜点焊的研究

提出了铝铜过渡接头的点焊新方法,用交流焊机点焊铝铜,解决了Al2O3氧化膜层的破碎问题。从而可利用热活化、压力、电磁搅拌力,使铝铜固溶,扩散和铝液面移动,完成铝铜点焊,获得比铝强度高的焊接接头,为铝代铜的运用提供了一种特殊的途径。     

Microstructure and Properties of Low-pressure Cold Sprayed Al-based Composite Coatings on Magnesium Alloy Surface

Pure Al and Al-30% Al2O3 composite coatings are prepared on the surface of AZ31B magnesium alloy by low-pressure cold spraying. The morphology and structure of the coatings are analyzed by scanning electron microscope (SEM), energy dispersive spectroscopy (EDS), and X-ray diffraction (XRD), and the effects of the addition of Al2O3 on the microstructure of the Al-based coatings are discussed. The mechanical properties and corrosion resistance of the coatings are fully evaluated by the micro-hardness tester, electronic tensile machine, and electrochemical workstation. The results show that the coating structure is more uniform and denser, and the porosity is significantly reduced after the addition of Al2O3. The interfaces between the coatings and the magnesium alloy substrate are distinct, and the coatings and the substrate are mechanically combined. Compared with the pure Al coating, the microhardness of the Al-Al2O3 composite coating is increased to 61.1 HV0.2, and the bonding strength reaches above 53.1 MPa. The self-corrosion potential of the two coatings is higher than that of the magnesium alloy, and the self-corrosion current density is significantly lower than that of the magnesium alloy substrate. The Al-based coatings prepared by low-pressure cold spraying have high hardness, good bonding strength, and good corrosion resistance, which can be used for the repair and protection of magnesium alloy structural parts.