长拉杆-止口连接弯曲刚度损失及对转子系统振动响应影响

航空燃气轮机为了实现高负荷、轻质化的追求，在转子结构设计中，趋向于提高转速和加大长径比。这使得转子系统弯曲模态临界转速降低，转子在工作转速范围内不可避免会产生一定的弯曲变形。转子弯曲变形会影响连接结构界面接触特性的变化，使其连接结构局部弯曲刚度产生损失。因此，对于工作转速靠近弯曲临界的高速转子系统，需要考虑连接结构界面接触状态变化对转子系统振动特性的影响。以高负荷的长拉杆-止口连接转子系统为对象，分析连接界面接触应力分布特性，提出连接结构弯曲刚度损失修正方法，以此为基础建立界面连接转子动力学模型。通过对止口连接三级轴流压气机转子结构动力学特性的仿真和试验研究表明，在靠近弯曲振型临界转速下，转子连接界面接触状态的变化会产生弯曲刚度损失，对转子动力学特性具有显著影响。     

燃气轮机周向拉杆转子连接刚度对转子振动特性影响的研究

为研究燃气轮机周向分布式拉杆转子轮盘间存在的连接刚度对轴系转子振动特性产生的影响，本文提出一种基于六自由度的弹簧单元等效方法；首先将轮盘接触刚度与拉杆弯曲刚度同时等效进连接界面，便于使用一维梁单元求解其临界转速与振动响应变化，验证其与全三维有限元法吻合度在3％以内；然后改写了非线性动力学方程，采用谐波平衡法对其进行求解，使用经典Newmark方法验证其准确性；最后使用该等效方法计算了某模拟转子连接刚度对其临界转速、响应特性、非线性特性等的影响。计算结果表明：当连接面剪切刚度与弯曲刚度减小3个数量级，均造成了临界转速的降低和振动响应的提高，而其影响程度可由各阶振型大致推测，且响应幅值受剪切刚度影响较大；使用临界转速趋于收敛时的连接刚度与试验值的对比误差小于2％，较连续模型提升显著；在连接刚度各向异性时，每一阶临界转速均出现两个响应峰值，轴心轨迹变成椭圆；考虑刚度随位移变化（非线性刚度）后，转子的响应峰值发生“歪扭”特性，且该峰值特征随不平衡量、无量纲阻尼等因素变化而呈现“波浪形”变化。     

四旋翼倾转飞行器操纵冗余设计

建立了四旋翼倾转飞行器旋翼、机翼、机身的非线性气动模型和飞行动力学模型,并在Matlab/Simulink环境下搭建了仿真模型,根据仿真模型计算各个操纵面的操纵效率,确定了不同状态下各个通道需要用到的操纵方式,结合飞行动力学模型和操纵方式,在纵向通道上进行了全包线的配平计算,表明了操纵策略的可行性。     

Effect of bristle pack position on the rotordynamic characteristics of brush-labyrinth seals at various operating conditions

Over the last few decades, the research on the effect of bristle pack position on the rotordynamic characteristics of the brush-labyrinth seals is not sufficient. To this end, two kinds of brush-labyrinth seals for the bristle pack element installed upstream of the labyrinth teeth named BSU and installed downstream of the labyrinth teeth called BSD were used to investigate the effect of bristle pack position on the rotordynamic characteristics of the brush-labyrinth seals. Using the numerical model combining the porous medium model and the whirling rotor method, the rotordynamic characteristics of the BSU and BSD at various operating conditions including four kinds of pressure ratios, five kinds of inlet preswirl speeds and four kinds of rotor spinning speeds were conducted. The obtained results show that the effects of operating conditions on rotordynamic coefficients for the different seal configurations are different. The direct stiffness, cross-coupled stiffness and direct damping of the BSU are lower than those of the BSD. The rotordynamic coefficients of the BSU are more insensitive to the operating conditions variation. From the perspective of the seal stability, the BSU is a better brush-labyrinth seal configuration at high pressure ratio, high positive preswirl or high rotor spinning speed conditions. While in the case of low pressure ratio, low positive preswirl or low rotor spinning speed conditions, the BSD is a better choice.     

直升机后缘襟翼驱动器迟滞现象仿真与抑制

直升机后缘襟翼多采用压电驱动器作为驱动元件，但是在使用过程中压电驱动器迟滞会对其振动控制性能产生不利影响，因此针对压电驱动器迟滞开展了迟滞建模与抑制研究。通过实验研究了压电驱动器在不同驱动频率下的迟滞特性，采用Bouc-Wen模型对驱动器迟滞现象进行了建模，并采用粒子群算法（PSO）辨识模型参数，与实际测量迟滞曲线进行了对比，在10~60 Hz范围内所建立的迟滞模型能够较为精确地描述压电驱动器迟滞现象。建立了基于Bouc-Wen逆模型的前馈补偿控制与PID反馈控制相结合的复合控制策略，实验结果显示该控制策略能够在10~60 Hz较宽的频率范围内有效抑制该压电驱动器迟滞现象。建立了考虑驱动器迟滞的主动控制后缘襟翼振动控制动力学模型，并对中等速度稳态前飞条件下后缘襟翼振动控制性能进行了仿真，仿真结果显示驱动器迟滞会在一定程度上削弱振动控制性能，而采用复合控制可以提高后缘襟翼旋翼振动控制性能。     

多支点柔性转子系统临界转速稳健设计方法

基于响应面法和容差模型提出了定量考虑参数变差影响的转子系统临界转速稳健设计方法。该方法利用响应面模型获得多参数、多目标之间的函数关系,并以多阶临界转速分布为约束条件、以临界转速对支承刚度变差敏感度最低为设计目标。对小涵道比涡扇发动机低压转子系统临界转速稳健设计结果表明:在考虑各支点支承刚度变差情况下,采用多参数、多目标稳健设计方法,可保证多支点柔性转子系统的临界转速特性在满足设计要求的同时,转子系统临界转速对支承刚度变差的敏感度最低,验证了该方法的有效性。      

Investigation on nonlinear lateral-torsional coupled vibration of a rotor system with substantial unbalance

Substantial unbalance may be caused by fan blade off during the operation period of gas turbine engines, and related dynamic problems are very critical to the safety design of rotor system in aero-engine. This article aims to understand lateral-torsional coupled vibration of the rotor system with substantial unbalance. The governing equation of a modified unbalanced rotor system is established based on Lagrangian approach. Then, a mathematical analytical method is proposed in which a linear approximation is derived and the Floquet theory and Hill’s method are incorporated, from which the modal characteristics of the unbalanced rotor are obtained. The modal characteristics of the unbalanced rotor system are revealed comprehensively for the first time. Furthermore, the relation between the modes and responses of the unbalanced rotor is discussed in detail. The results show that the lateral vibration and torsional vibration of the unbalanced rotor are coupled through the inertial terms in the governing equations. Due to the coupling, veering and lock-in phenomena occur between the frequencies of the forward whirl mode and the torsional mode. Furthermore, lock-in can lead to a kind of principal instability. With regard to the response of the unbalanced rotor, both natural vibration components and enforced vibration components appear in the lateral response, while only natural vibration components appear during torsional vibration. Moreover, natural vibration components play a crucial role in the response within the principal instability region and cause divergence of the vibration amplitudes in the lateral and torsional directions.     

当量油气比对内燃波转子燃烧特性的影响

为了研究当量油气比对内燃波转子燃烧特性的影响规律,采用控制变量法,保持内燃波转子转速、混气填充速度不变,通过调节燃料喷射体积流量改变混气的当量油气比。在不同的当量油气比下开展内燃波转子燃烧特性试验。试验结果表明:当量油气比对于内燃波转子燃烧过程影响很大,随着当量油气比的增加，内燃波转子获得的燃烧压力增益增大,在内燃波转子转速为900r/min、混气填充速度为6.741m/s、当量油气比为1.442时,6个工作循环内平均燃烧压力增益达到246.29％,火焰平均传播速度随当量油气比呈类似正态分布,在化学恰当比附近达到最大10.8m/s。当量油气比小于1时，两组工况下火焰锋面呈向下倾斜状传播,当量油气比大于1时，两组工况下火焰锋面呈向上倾斜状传播。      

Design and application of an Electric Tail Rotor Drive Control (ETRDC) for helicopters with performance tests

With the development of electric helicopters’ motor technology and the widespread use of electric drive rotors, more aircraft use electric rotors to provide thrust and directional control. For a helicopter tail rotor, the wake of the main rotor influences the tail rotor’s inflow and wake. In the procedure of controlling, crosswind will also cause changes to the tail disk load. This paper describes requirements and design principles of an electric motor drive and variable pitch tail rotor system. A particular spoke-type architecture of the motor is designed, and the performance of blades is analyzed by the CFD method. The demand for simplicity of moving parts and strict constraints on the weight of a helicopter makes the design of electrical and mechanical components challenging. Different solutions have been investigated to propose an effective alternative to the mechanical actuation system. A test platform is constructed which can collect the dynamic response of the thrust control. The enhancement of the response speed due to an individual motor speed control and variable-pitch system is validated.     

基于合成射流的旋翼翼型动态失速控制研究

针对直升机旋翼工作环境下来流速度和迎角(Angle of attack,AoA)耦合引起的动态失速问题,建立了基于合成射流的旋翼动态失速控制的数值模拟方法。采用运动嵌套网格方法,通过对翼型的平移和旋转实现变来流速度-变迎角的耦合。以积分形式的雷诺平均N-S方程为主控方程,空间离散使用Roe格式,时间离散为隐式LU-SGS方法,以OA209翼型为研究对象,在翼型上表面放置合成射流激振器,开展了射流位置、动量系数、无量纲频率以及偏角等参数对轻度失速、深度失速下翼型动态失速控制的研究。研究发现,轻度失速下,射流位置靠近气流分离点时(20%c附近,c为翼型弦长),对逆压梯度引起的轻度失速控制效果最佳。深度失速下气流分离点虽在5%c之前,但射流位于前缘分离泡后端(10%c附近)时控制效果较好。大迎角需要较大的动量系数才能有效控制。射流频率对涡结构的尺寸和数量会产生一定影响,能改变气动特性波动幅度。较小的射流偏角对轻度失速的控制更有效,而深度失速则需要较大的偏角。