应用最大熵谱估计检测微弱信号

频谱分析是数字信号处理的主要内容之一 ,近年来 ,由于最大熵算法的一些优点 ,使它成为现代谱估计中一个比较活跃的领域。最大熵算法是 196 7年由Burg提出来的一种现代谱估计方法。提出了应用最大熵谱估计及LMS自适应算法 ,根据有限数据 ,在频域内提取被淹没在噪声中的有用信号的方法及应用MATLAB语言进行的仿真。     

放置式涡流线圈测厚数值分析

本文利用ANSYS有限元分析软件进行数值模拟,针对非磁性金属基体上非导电覆盖层厚度的影响,建立了涡流检测线圈的二维模型,求解了涡流检测线圈的阻抗变化,并对其阻抗值进行了归一化。计算得到的仿真结果与实际的传感器特性是吻合的,从而为涡流检测的原理分析、传感器设计和实际应用提供了一种有效的分析方法和参考依据。     

基于ICT图像的航空发动机涡轮叶片壁厚尺寸精密测量方法

为保障航空发动机的可靠性,要求精确测量发动机叶片不同界面处的内、外表面法线方向的厚度。为此,研究了一种基于ICT图像的叶片壁厚尺寸亚像素级精密测量方法。它采用边界提取技术确定叶片内、外表面法线的方向;应用亚像素级边界定位技术,在该法线方向,定位壁厚的起始边界点和终止边界点;然后,计算两个边界点坐标位置差,获得以像素为单位的壁厚尺寸;最后,对像素尺寸进行标定,获得以毫米为单位的壁厚尺寸。试验结果表明,本文方法实际测量精度达到0.2个像素和0.042mm。     

Hybrid partition- and network-level scheduling design for distributed integrated modular avionics systems

Distributed Integrated Modular Avionics (DIMA) develops from Integrated Modular Avionics (IMA) and realizes distributed integration of multiple sub-function areas. Time-triggered network provides effective support for time synchronization and information coordination in DIMA systems. However, inconsistency between processing resources and communication network destroys the time determinism benefiting from partitions and time-triggered mechanism. To ensure such time determinism and achieve guaranteed real-time performance, system design should collectively provide a global communication scheme for messages in network domain and a corresponding execution scheme for partitions in processing domain. This paper firstly establishes a general DIMA model which coordinates partitioned processing and time-triggered communication, and then proposes a hybrid scheduling algorithm using Mixed Integer Programming to produce feasible system schemes. Furthermore, incrementally integrating new functions causes upgrades or reconfigurations of DIMA systems and will generate integration cost. To control such cost, this paper further develops an optimization algorithm based on Maximum Satisfiability Problem and guarantees that the scheduling design for upgraded DIMA systems inherit their original schemes as much as possible. Finally, two typical cases, including a simple fully connected DIMA system case and an industrial DIMA system case, are constructed to illustrate our DIMA model and validate the effectiveness of our hybrid scheduling algorithms.     

铝7075介观尺度切削过程的仿真研究

基于位错机制的应变梯度(MSG)塑性理论,采用任意拉格朗日一欧拉ALE算法,建立了铝合金介观尺度切削过程的仿真模型,并通过试验对仿真模型进行了验证.结果表明:PCD刀具切削铝合金的最小切削厚度大致为刀具钝圆半径的0.25～0.3倍;材料应变梯度的存在使得材料表现出强烈的尺度效应,并且使单位切削力随着进给量的减小明显增大.     

芯子宽厚比对铝蜂窝夹层结构平压强度的影响

用正六边形代替实际蜂芯,推导了夹层结构的平压强度与芯子宽厚比的关系,并对八种规格的芯子平压强度进行统计,统计结果虽然与推导的结果有偏差,但规律却是一致的,即蜂窝夹层结构的平压强度随着芯子宽厚比d/t_s增大呈负指数减小。     

Identification of reduced-order model for an aeroelastic system from flutter test data

Recently, flutter active control using linear parameter varying (LPV) framework has attracted a lot of attention. LPV control synthesis usually generates controllers that are at least of the same order as the aeroelastic models. Therefore, the reduced-order model is required by syn-thesis for avoidance of large computation cost and high-order controller. This paper proposes a new procedure for generation of accurate reduced-order linear time-invariant (LTI) models by using sys-tem identification from flutter testing data. The proposed approach is in two steps. The well-known poly-reference least squares complex frequency (p-LSCF) algorithm is firstly employed for modal parameter identification from frequency response measurement. After parameter identification, the dominant physical modes are determined by clear stabilization diagrams and clustering tech-nique. In the second step, with prior knowledge of physical poles, the improved frequency-domain maximum likelihood (ML) estimator is presented for building accurate reduced-order model. Before ML estimation, an improved subspace identification considering the poles constraint is also proposed for initializing the iterative procedure. Finally, the performance of the proposed procedure is validated by real flight flutter test data.     

Feedrate scheduling method for constant peak cutting force in five-axis flank milling process

It is extremely important to select appropriate feedrates for the stable machining of parts with ruled surface in modern aviation industrial applications. However, the current studies take too much time to achieve this goal. Therefore, this paper presents an efficient feedrate optimization method for constant peak cutting force in five-axis flank milling process. The solution method of the instantaneous undeformed chip thickness (IUCT) is proposed using least squares theory with the cutter entry angle and feedrate as variables. Based on this method, an explicit analytical expression of the peak cutting force for each cutting point is established. Furthermore, a feedrate scheduling method is developed to quickly solve the appropriate feedrate under constant peak cutting force. To verify the proposed IUCT model, the fitting IUCT is compared with the accuracy data at different feedrates. Additionally, some experiments of five-axis flank milling are conducted to demonstrate the effectiveness of the peak force model and the feedrate scheduling method. And the surface roughness before and after feedrate scheduling is detected. The results show that the proposed feedrate scheduling method can quickly adjust the feedrate and ensure constant peak force during machining. At the same time, the surface quality is kept at a high level.     

最小喉道面积比对多级轴流压气机性能影响

为了研究最小喉道面积比对多级轴流压气机性能的影响,开发了一套基元叶栅最小喉道面积比的计算程序。通过对基元叶栅进行最小喉道面积比计算,得到压气机叶片沿展向的最小喉道面积比分布,同时分析了转子和静子的最小喉道面积比分布规律。最后采用修改基元叶型的前段弯度比与最大厚度来改变基元叶栅的最小喉道面积比分布,分析了不同最小喉道面积比分布对多级轴流压气机性能的影响。结果表明,压气机的阻塞流量与最小喉道面积比成正相关,并且存在最佳前段弯度比使压气机设计点效率与压比达到最大,最大厚度变小能改善压气机整体性能。     

Performance investigation of intercooler operating in wet condition using distributed parameter model

The performance of a marine gas turbine intercooler operating in wet condition was evaluated.The intercooler was a cross-flow plate-fin heat exchanger that used air and pure water as its working fluids at the hot and cold sides,respectively.The heat transfer performance and the water vapor condensation were investigated for a relative humidity of the inlet air that reached 100% during warship cruise.The condensation of the water vapors increased the hot side outlet temperature by a certain amount,which could in turn influence the performance of the compressor downstream.The condensate film thickness and the void fraction were calculated based on an annular two-phase flow model.It is found that water vapor condensation in hot flow channel increases the outlet temperature with a maximum value of 7.3℃ in the case of 100% relative humidity.The calculated liquid film thickness reaches a maximum value of 4μm,which indicates negligible thermal resistance to heat transfer.The results of liquid film thicknesses also provide a qualitative prediction of the diameter distribution of the condensate water droplets.