A practical nonlinear robust control approach of electro-hydraulic load simulator

This paper studies a nonlinear robust control algorithm of the electro-hydraulic load simulator （EHLS）. The tracking performance of the EHLS is mainly limited by the actuator＇s motion disturbance, flow nonlinearity, and friction, etc. The developed controller is developed based on the nonlinear motion loading model. The problems of the actuator＇s disturbance and flow nonlinearity are considered. To address the friction problem, the friction model of the loading motor is identified experimentally. The friction disturbance is compensated using the obtained friction model. Therefore, this paper considers the main three factors comprehensively. The developed algorithm is easy to apply since the controller can be obtained just with one step back-stepping design. The stability of the developed algorithm is proven via Lyapunov analysis. Both co-simulation and experiments are performed to verify the effectiveness of this method.     

次流通道对双喉道气动矢量喷管的性能影响研究

为了进一步了解次流通道对双喉道气动矢量喷管(Dual Throat Nozzle,DTN)气动矢量性能的影响,基于二维DTN喷管构型进行了详细的数值模拟研究。结果表明:收扩的次流通道相对于平直的次流通道不会改善DTN喷管的推力矢量性能;随着次流流量增加,DTN的推力矢量角存在一个最大值,超过该值各推力矢量性能均会降低;次流通道宽度对DTN喷管推力矢量性能影响显著:(1)次流宽度不影响所能达到的最大推力矢量角;(2)小的次流宽度在进口总压较高的条件下具有更高的推力矢量角;(3)增大次流宽度能降低次流总压,但达到的矢量角会有所减小。     

感应电能传输系统损耗分析

感应电能传输(CIPT)技术,是一种新型的电能传输方式,能实现无电气连接的电能传送.松耦合变压器的引入,使得耦合系数较常规变压器低,对系统损耗准确建模成为CIPT技术的关键问题.本文通过对CIPT各个元器件的功率损耗分析,研究各个功率模块损耗之间的耦合关系.以损耗关于原边线圈电流的泰勒展开式为基础,建立CIPT系统功率损耗模型及效率模型.为验证理论分析的正确性,设计制作了一个CIPT样机,通过对不同工况进行比较实验,证明了所建磁路模型、效率模型的正确性.提出的损耗分析方法能够用来指导CIPT系统的分析与设计.     

杆件拉伸实验中的破坏预估及结构模型修正研究

通过对强度理论、杆件拉伸概念及公式的分析研究，引入实验元件的几何刚度和弹性稳定性系数的概念，推导出实验元件的拉伸位移变化率的公式，并以此进行实验元件的破坏预估及结构模型修正。     

永磁同步电机无传感器转子位置观测器研究

永磁同步电机的运动是一个强耦合非线性动态过程,旋转高频电压注入下 的电机模型存在建模误差,数据采集存在测量噪声和系统噪声,采用传统的线性控制理 论难以达到要求。提出了以不依赖于准确数学模型的广义预测控制算法为基础的转子位 置观测器,可有效提高转子位置检测精度,增强抗干扰能力。仿真实验结果表明,在存 在建模误差和噪声的情况下,基于广义预测控制算法位置观测器的旋转高频注入法可准 确追踪转子位置。     

化学气相反应法在C/C复合材料抗氧化处理中的应用

通过把硅蒸气渗入预制体孔隙与碳直接反应生成SiC的化学气相反应(CVR)方法,提高初始密度和预制体结构均不同的C／C复合材料的抗氧化能力,研究了C／C复合材料的密度变化与微观结构,并对其进行了氧化试验。结果表明,因CVR温度、C／C复合材料初始密度不同,抗氧化处理后的密度增加量有显著不同。针刺炭布C／C／SiC复合材料在马福炉中于1160℃经65min氧化后,其失重率仅2．6％,而密度为1．95g／cm^3的同结构C／C复合材料相在同条件下失重率高达32％。     

A multi-aircraft conflict detection and resolution method for 4-dimensional trajectory-based operation

Conflict Detection and Resolution(CDR) is the key to ensure aviation safety based on Trajectory Prediction(TP). Uncertainties that affect aircraft motions cause difficulty in an accurate prediction of the trajectory, especially in the context of four-dimensional(4D) Trajectory-Based Operation(4DTBO), which brings the uncertainty of pilot intent. This study draws on the idea of time geography, and turns the research focus of CDR from TP to an analysis of the aircraft reachable space constrained by 4D waypoint constraints. The concepts of space–time reachability of aircraft and space–time potential conflict space are proposed. A novel pre-CDR scheme for multiple aircraft is established. A key advantage of the scheme is that the uncertainty of pilot intent is accounted for via a Space-Time Prism(STP) for aircraft. Conflict detection is performed by verifying whether the STPs of aircraft intersect or not, and conflict resolution is performed by planning a conflict-free space–time trajectory avoiding intersection. Numerical examples are presented to validate the efficiency of the proposed scheme.     

倾转旋翼机巡航状态旋翼滑流影响

倾转旋翼机由于需要兼顾垂直起降和高速平飞2种典型工况下的动力需求，采用大直径旋翼作为推进装置会使机翼大部分处于旋翼滑流区内，这与常规螺旋桨飞机存在较大差异。为评估不同数值计算方法并研究旋翼滑流对倾转旋翼机气动特性的影响，针对选取两叶旋翼的某倾转旋翼机方案，利用激励盘模型、多参考系（MRF）模型、滑移网格模型分别进行了巡航状态下旋翼滑流对全机气动特性影响的数值模拟研究。结果表明:相对于无滑流状态，滑流定常影响使全机阻力增大，最大升阻比降低了7.5%，尾翼产生的升力增大，纵向静稳定度增加了17.1%，全机低头力矩增大；当迎角较小时，滑流虽然改变了机翼表面的升力分布，但是全机升力变化不大；滑流非定常影响会使全机气动特性产生周期性波动，升力系数波动幅度为9.0%，阻力系数波动幅度为10.8%，并且随着迎角的增大，波动幅度也越大。