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1.
《中国航空学报》2021,34(6):162-177
In the manufacturing of thin wall components for aerospace industry, apart from the side wall contour error, the Remaining Bottom Thickness Error (RBTE) for the thin-wall pocket component (e.g. rocket shell) is of the same importance but overlooked in current research. If the RBTE reduces by 30%, the weight reduction of the entire component will reach up to tens of kilograms while improving the dynamic balance performance of the large component. Current RBTE control requires the off-process measurement of limited discrete points on the component bottom to provide the reference value for compensation. This leads to incompleteness in the remaining bottom thickness control and redundant measurement in manufacturing. In this paper, the framework of data-driven physics based model is proposed and developed for the real-time prediction of critical quality for large components, which enables accurate prediction and compensation of RBTE value for the thin wall components. The physics based model considers the primary root cause, in terms of tool deflection and clamping stiffness induced Axial Material Removal Thickness (AMRT) variation, for the RBTE formation. And to incorporate the dynamic and inherent coupling of the complicated manufacturing system, the multi-feature fusion and machine learning algorithm, i.e. kernel Principal Component Analysis (kPCA) and kernel Support Vector Regression (kSVR), are incorporated with the physics based model. Therefore, the proposed data-driven physics based model combines both process mechanism and the system disturbance to achieve better prediction accuracy. The final verification experiment is implemented to validate the effectiveness of the proposed method for dimensional accuracy prediction in pocket milling, and the prediction accuracy of AMRT achieves 0.014 mm and 0.019 mm for straight and corner milling, respectively.  相似文献   
2.
《中国航空学报》2021,34(6):220-232
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.  相似文献   
3.
This paper deals with geometric error modeling and sensitivity analysis of an overconstrained parallel tracking mechanism. The main contribution is the consideration of overconstrained features that are usually ignored in previous research. The reciprocal property between a motion and a force is applied to tackle this problem in the framework of the screw theory. First of all, a nominal kinematic model of the parallel tracking mechanism is formulated. On this basis, the actual twist of the moving platform is computed through the superposition of the joint twist and geometric errors. The actuation and constrained wrenches of each limb are applied to exclude the joint displacement. After eliminating repeated errors brought by the multiplication of wrenches, a geometric error model of the parallel tracking mechanism is built. Furthermore,two sensitivity indices are defined to select essential geometric errors for future kinematic calibration. Finally, the geometric error model with minimum geometric errors is verified by simulation with SolidWorks software. Two typical poses of the parallel tracking mechanism are selected, and the differences between simulation and calculation results are very small. The results confirm the correctness and accuracy of the geometric error modeling method for over-constrained parallel mechanisms.  相似文献   
4.
基于任意角度压缩感知(CS)方法分析了传感器安装角度偏差对风扇/压气机周向模态识别重构的影响,设计了一套自适应角度优化程序修正重构误差。利用数值试验探究了传感器角度偏差和数量对周向模态重构结果的影响,研究表明:当角度偏差等级为2.5%时,平均重构误差达到10%以上,若保证重构误差基本不变,将传感器数量从7个增加至25个,仅可以将角度偏差等级放宽至4%。而采用小生境微种群遗传算法进行自适应角度优化,在20 dB信噪比下,通过自适应角度优化可将角度偏差等级从2.5%放宽至10%,降低了传感器安装的精度要求。成功优化了一款冷却风扇在前三阶叶片通过频率下的主要周向声模态重构幅值。自适应角度优化算法有效提升了基于压缩感知的风扇/压气机周向模态重构可靠性。  相似文献   
5.
偏心撞击对撞击式喷嘴雾化特性的影响   总被引:2,自引:0,他引:2  
为研究偏心撞击对撞击式喷嘴雾化特性的影响,建立了求解自燃推进剂冷态射流撞击雾化过程的数值模拟方案,计算了不同偏心度条件下的射流撞击雾化过程。采用树形自适应加密算法直接求解不可压Navier-Stokes方程组,由分段线性的流体体积(VOF)方法对流体界面进行捕捉。结果表明偏心撞击会导致雾场发生偏转,当无量纲偏心度E为1/8时,雾场偏转角度约为9.2°,应控制加工偏差小于该值。随着偏心度的增大,液膜的偏转角度增大,理论推导得到的液膜偏转角度要小于数值计算得到的液膜偏转角度。正心撞击时燃料与氧化剂流强峰值接近,雾场的流强分布呈单峰分布。当发生偏心撞击时,由于燃料与氧化剂部分射流未参与撞击导致流强峰值出现交错,雾场的流强分布呈双峰分布,混合比的空间分布发生较大改变。正心撞击时撞击点下游液滴的速度分布近似呈轴对称分布,而偏心撞击之后的速度分布则呈中心对称分布。偏心撞击导致的射流动量损失使得雾化性能变差,当无量纲偏心度E为1/8时,一甲基肼(MMH)的Sauter平均直径增大约4.8%,四氧化二氮(NTO)的Sauter平均直径增大约5.8%。   相似文献   
6.
罗金飞  赵帅兵  覃落雨  王刚  刘晓光 《航空学报》2019,40(12):323250-323250
针对恶劣空间环境设计了一种两级存储编码方案,以应对航天系统中存储单元发生多个单粒子翻转(SEU)错误的问题。方案设计的主要思想是根据简单低纠错编码组合出高容错编码,通过编码组合,使用字间编码来纠正字内编码无法纠正的错误,从而使存储系统更加可靠;对两级编码方案提出若干优化策略,以提高编解码性能,使得两级冗余编码效率接近于原始字内编码。实验结果表明,提出的两级冗余编码方案能够较好解决存储系统中发生多个单粒子翻转错误的问题。即与单一的字内编码相比,两级纠错编码方案能够大大降低星上存储系统出现不可修复的概率,保证了星上存储系统的可靠运行。  相似文献   
7.
张瑶佳  王莉  尹振东  高杨  王帮亭 《航空学报》2019,40(1):522404-522404
由于飞机内部布线空间有限、电弧故障存在发生时间地点随机以及特征不明显等问题,导致检测困难。本文基于航空270 V高压直流(HVDC)系统开展直流串行电弧故障特征提取方法研究,采用希尔伯特黄变换(HHT)提取电弧电流交流分量的时域和频域特征量。选择HHT的固有模态函数IMF5瞬时幅值的峰峰值和标准差作为识别电弧故障的时域特征,与原始信号中提取的时域特征量对比,正常和电弧特征量的区分度更大;选择HHT的固有模态函数IMF1+IMF2、一定频带范围内的瞬时幅值计算得到的谐波功率和作为区分正常和电弧情况的频域特征量。与常用的快速傅里叶变换(FFT)方法相比,HHT三维时频谱能够反映信号的局部特征,HHT方法计算得到的正常和电弧特征量之间的区分度更大,电弧和正常特征量的比值最高可达346。基于HHT的电弧故障特征提取方法能够更好地区分正常和电弧情况,有助于提高电弧故障的检测率,降低虚警率,具有重要的工程应用价值。  相似文献   
8.
梁田  刘波  矫丽颖 《推进技术》2020,41(5):1031-1038
为了研究压气机机匣端壁抽吸对间隙泄漏流动控制的可行性和有效性,以高负荷压气机叶栅为研究对象,通过数值模拟方法对不同抽吸位置和抽吸流量率控制参数下的计算工况进行了对比和分析。研究结果表明:端壁抽吸可以直接地影响叶尖泄漏流的结构形态和存在形式,减弱叶尖泄漏流的强度和影响范围,进而提升压气机叶栅的性能;当抽吸槽覆盖范围包含叶尖泄漏流形成位置及稍靠后附近区域时,所对应的抽吸方案具有较好的控制效果,在0°攻角和0.5%的抽吸流量条件下前槽抽吸和中槽抽吸分别可获得7.04%和7.76%的叶栅总压损失增益;并且进一步研究发现端壁抽吸流量率存在上临界值,应针对不同攻角工况,在其相应的临界值范围内选择合理的抽吸流量,以达到用较小的吸气量实现对间隙泄漏流的控制。  相似文献   
9.
《中国航空学报》2020,33(1):255-270
This study creates and combines the general maneuver libraries for fixed-wing aircraft to implement tactical maneuvers. First, the generalized maneuver libraries are established by analyzing the characteristics of tactical maneuvers required in battlefields. The 7th order polynomial is applied to both the creation of the maneuver libraries and the generation of the trajectories or flight paths for modal inputs. To track the desired trajectory, we design the Attitude Command Attitude Hold (ACAH) system and the Rate Command Rate Hold (RCRH) system using Model Following Controller (MFC). Moreover, the Line-of-Sight (LOS) guidance law is designed. In particular, the CONDUIT® is employed to optimize the gains so that the control systems meet the aircraft Handling Qualities (HQ) criteria. Finally, flight simulations are performed for the longitudinal loop, immelmann-turn, and climb-slalom-descent maneuvers to verify that tactical aggressive maneuvers are realizable via the combination of maneuver libraries. This study can contribute to the development of flight techniques for aircraft tactical maneuvers and to the revision of air force operational manuals.  相似文献   
10.
舵机速率限制是造成电传操纵飞机人机耦合的主要原因。利用描述函数法对舵机速率限制非线性进行建模,分析舵机速率限制非线性、人机耦合发生频率及人机闭环稳定性间的关系,并基于此提出舵机速率边界的确定方法;以典型放宽静稳定性飞机为例,基于最优McRuer驾驶员模型,确定人机闭环稳定性所需的最小舵机偏转速率;基于开环起始点(OLOP)准则对所确定的速率限制边界进行验证。结果表明:本文提出的舵机速率边界的确定方法最小成本地避免了人机耦合;所确定的舵机速率限制边界与OLOP准则边界对应的舵机速率基本吻合,即所建立的舵机速率限制边界确定方法合理。  相似文献   
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