旋流静态混合器内脉动壁压符号时间序列复杂度分析

为了研究旋流静态混合器内瞬态壁压非线性符号化特性,利用高速动态数据采集系统对直径为0.1m、长径比为2的旋流静态混合器内湍流脉动壁压进行测量。基于瞬态壁压序列的有限统计复杂性对3种符号化转换方法进行了评估,并优化了数据采样长度和小波分解尺度。分析发现动态法保留静态混合流动有效信息能力优于其他两种方法。运用动态法和db2小波相结合对1～15尺度下的压力波动信号进行多尺度符号化复杂度分析。实验研究表明：随着轴向位置的增加,系统的稳定性增强,相对复杂度降低。7.8125Hz以上信号随着流体微团脉动频率的降低其相对复杂度呈双曲线衰减,而0～7.8125Hz信号相对复杂度随信号频率的降低呈线性衰减,表明静态混合是一种具有宏观大尺度稳定性和局部小尺度不稳定的多尺度结构的流体动力学系统。     

机载设备计量性分析与设计讨论

为了在型号研制的各个设计阶段,对机载设备的计量性引起关注。本文介绍了计量性的意义和设计原则;讨论了各类机载设备的计量性设计方法,并就计量性设计要求、设计与其他工作做了简单介绍。     

宽弦空心风扇叶片流固耦合作用下的叶片响应分析

利用数值模拟的方法,对宽弦空心风扇叶片在空气场作用下的瞬态响应进行了研究.采用流固耦合数值计算方法,得到了某宽弦空心风扇叶片在非定常边界条件下的变形响应.计算结果表明,叶片在空气场的作用下,最大位移发生在叶片前缘叶尖处,在沿叶展方向与叶片内部芯板结构沿叶展方向分布重合处产生应力集中,应力值由叶片表面向叶片内部逐渐减小,内部芯板虽然厚度较薄,但分布应力值均较小,且应力集中发生在叶片表面.气动力与叶片结构之间的耦合作用,使叶片结构模态振型沿周向不再均匀分布.叶片在气固耦合时的变形响应以绕旋转轴的弯曲振动为主,接近叶片的一阶模态变形.      

基于证据理论的航空发动机早期故障诊断方法

在分析航空发动机早期故障特点和数据融合的基础上,将证据理论应用于发动机故障征兆级别的数据融合中,提出了构造基本信任指派函数的方法,从而得到了更准确的早期故障征兆.在此基础上,应用模糊聚类分析方法,依据最大隶属度原则得到发动机早期故障源.该方法考虑了发动机早期故障征兆不明确、不精确、不肯定等特点,应用模糊测度来表示征兆,更符合发动机早期故障的实际情况.      

三支承磁悬浮轴承转子系统性能的实验分析

在一般磁悬浮轴承转子系统的基础上增加辅助磁悬浮支承组件,构成磁轴承与辅助磁悬浮支承组合三点支承转子系统。通过试验模态分析和系统高速旋转实验研究了不同控制参数下,组合支承柔性转子系统的动态性能,并与二支承系统进行了比较。实验结果表明,辅助磁悬浮支承对系统性能有较大影响,提高了系统在各阶模态振动时的阻尼,使系统顺利越过二阶弯曲临界转速在16000rpm以上稳定运行。     

热敏液晶测温标定及误差分析

对SPN／R30C20W型热敏液晶的特性进行了实验研究。实验以相机视角、光源强度、液晶厚度等参数作为对象,讨论了3种参数对液晶测温结果的影响。分析结果表明：在视角小于15°时,相机视角对液晶测温的影响可以忽略;光强不同导致由标定曲线计算出的最大温差达到5．5℃;液晶厚度对标定数据有较大的影响。该实验结论在液晶测温领域广泛应用。     

细节疲劳额定强度计算参量取值敏感性研究

 现代民机设计中细节疲劳额定强度(DFR)方法占据重要地位。为了研究DFR方法中的参数敏感性问题,针对典型航空材料讨论了在斜度参数和分散性参数两种参数的变化范围内,直接采用波音设计许用值进行DFR计算可能造成的误差水平,并与简单的扰动分析结果进行了对比;推导了基于Gerber方程计算DFR值的新公式,并对其适用性进行了对比分析。结果表明,在上述计算参量中斜度参数对国产材料DFR计算结果影响最敏感;锻铝等延性材料更适于使用基于Gerber方程的DFR公式。     

模拟打伤/抛修缺口对TC17钛合金叶片振动疲劳性能的影响

研究了无缺口、打伤缺口和3种抛修缺口对TC17钛合金叶片振动疲劳性能的影响.结果表明,无缺口模拟叶片的疲劳寿命最长且寿命分散性最小,打伤缺口模拟叶片的疲劳寿命最短且寿命分散性最大,3种抛修缺口模拟叶片的疲劳寿命介于前两者之间,其中抛修缺口Ⅰ模拟叶片的疲劳寿命最长.无缺口和抛修缺口模拟叶片的疲劳裂纹均起源于叶片根部,打伤...     

Influence of leading edge with real manufacturing error on aerodynamic performance of high subsonic compressor cascades

To investigate the influence of real leading-edge manufacturing error on aerodynamic performance of high subsonic compressor blades, a family of leading-edge manufacturing error data were obtained from measured compressor cascades. Considering the limited samples, the leading-edge angle and leading-edge radius distribution forms were evaluated by Shapiro-Wilk test and quantile–quantile plot. Their statistical characteristics provided can be introduced to later related researches. The parameterization design method B-spline and Bezier are adopted to create geometry models with manufacturing error based on leading-edge angle and leading-edge radius. The influence of real manufacturing error is quantified and analyzed by self-developed non-intrusive polynomial chaos and Sobol’ indices. The mechanism of leading-edge manufacturing error on aerodynamic performance is discussed. The results show that the total pressure loss coefficient is sensitive to the leading-edge manufacturing error compared with the static pressure ratio, especially at high incidence. Specifically, manufacturing error of the leading edge will influence the local flow acceleration and subsequently cause fluctuation of the downstream flow. The aerodynamic performance is sensitive to the manufacturing error of leading-edge radius at the design and negative incidences, while it is sensitive to the manufacturing error of leading-edge angle under the operation conditions with high incidences.     

Passive localization by a single moving observer using TOA only with unknown SRI: Observability analysis and algorithm

Passive localization by a single moving observer using Time of Arrival (TOA) only with an unknown Signal Repetition Interval (SRI) is investigated in this paper. Observability analysis is performed first. The observability condition for uniquely determining the emitter position and SRI is derived. The conditional Cramer-Rao Lower Bound (CRLB) is also analyzed. It is found that the ambiguity of the SRI integer of the first TOA does not affect the theoretical estimation precision of the emitter position and SRI. A Reference-Fixed Differential TOA (RFDTOA)-based Iterative Maximum Likelihood Estimator (IMLE) is proposed, which only needs O(M) computational operations. Theoretical analysis and simulation results show that the Mean Square Error (MSE) of the proposed algorithm could attain the CRLB with moderate Gaussian measurement noise.