涡轮泵滚动轴承-转子系统高速运行试验研究

针对涡轮泵转子的具体结构特点,解决了高速运行试验过程中的支承、驱动、轴承润滑冷却、振动测量、转子高速动平衡及轴向力加载控制等问题。结合旋转机械故障诊断技术,提出了高速动平衡效率、转子支承状态及轴向力加载状态的优化方法,并在试验过程中对该优化方法进行了验证,实现了涡轮泵转子的高速稳定运行。结果表明:涡轮泵转子高速运行试验应采用刚性连接的柔性联轴器;涡轮泵转子高速轴承需采用高压直喷式供油;通过平衡效率优化可将非线性振动影响下的转子一次平衡效率由30%提高至73.7%;为避免高速运行时产生基础松动,试验中滚动轴承外环应采用紧配合安装;轴向力应沿轴承周向均匀加载,其大小应根据轴承-转子系统具体结构及运行状态综合分析确定。     

Experimental study on drilling basalt with self-vibratory drilling head

Based on the goal of improving the rock breaking ability when drilling asteroid rock samples under limited energy conditions, this paper proposes a method of drilling rock using self-vibratory drilling head and develops a small self-vibratory drilling head for drilling rock. In order to analyze the dynamic characteristics of drilling rock with self-vibratory drilling head, a rock model hypothesis that the rock consists of a series of micro-segment uniform continuous media is put forward. Base on the hypothesis, the model of drilling rock is constructed, the stability lobes diagram of self-vibratory drilling head drilling basalt is plotted, and the energy mechanism of drilling rock system with self-vibratory drilling head is discussed. The comparison tests of drilling basalt by three kinds of self-vibratory drilling head with different spring stiffness and the conventional method are carried out. The rotational speed is a variable in the comparative tests. The test results show that under the specific rotational speed and spring stiffness, self-excited vibration is produced in self-vibratory drilling head drilling basalt. When self-excited vibration drilling is conducted, although the amplitude fluctuation range of the drilling thrust force is wider than that of conventional drilling, the average drilling thrust force is smaller than the conventional drilling. The amplitude of drilling thrust force increases with an increase in spring stiffness. The method of drilling rock by self-vibratory drilling head is proved to be a potential method for viable drilling of asteroid rock samples.     

Neural network-based sliding mode control for atmospheric-actuated spacecraft formation using switching strategy

This paper presents an adaptive neural networks-based control method for spacecraft formation with coupled translational and rotational dynamics using only aerodynamic forces. It is assumed that each spacecraft is equipped with several large flat plates. A coupled orbit-attitude dynamic model is considered based on the specific configuration of atmospheric-based actuators. For this model, a neural network-based adaptive sliding mode controller is implemented, accounting for system uncertainties and external perturbations. To avoid invalidation of the neural networks destroying stability of the system, a switching control strategy is proposed which combines an adaptive neural networks controller dominating in its active region and an adaptive sliding mode controller outside the neural active region. An optimal process is developed to determine the control commands for the plates system. The stability of the closed-loop system is proved by a Lyapunov-based method. Comparative results through numerical simulations illustrate the effectiveness of executing attitude control while maintaining the relative motion, and higher control accuracy can be achieved by using the proposed neural-based switching control scheme than using only adaptive sliding mode controller.     

拟合摄动力函数在低轨卫星定轨算法中的应用

为降低卫星定轨中摄动运动方程计算的复杂性，根据低轨卫星动力学模型，在考虑二体作用力和地球非球形引力J2项摄动条件下，以拟合函数表示其余的摄动力，并采用扩展卡尔曼滤波（EKF）算法，提出了一种基于拟合摄动力函数的低轨卫星自主定轨滤波算法。仿真结果表明，该法可明显减少计算量，缩短滤波收敛时间，提高卫星的实时处理能力。定轨精度为：位置方向70．7m（1σ），速度方向0．16m／s（1σ），可满足一般低轨卫星的精度要求。     

力限控制方法试验验证技术研究

文章以某型号承力筒纵向振动力限控制试验为例,对力限控制试验平台进行了介绍,包括力限试验夹具及力测量设备(FMD)、力信号采集和处理技术、力传感器校准技术等.对承力筒力限控制试验结果和加速度控制试验结果进行比较,指出力限控制方法对控制精度和试验结果的影响,并探讨了在我国航天器振动试验中应用力限控制方法需要面对的问题及可能的解决办法,为力限试验验证技术的深入开展提供了参考.     

计算外壁热响应的非线性瞬态导热反问题方法

研究组合结构外壁热响应特性,采用Beck’s序列函数法,优化算法各个环节,建立应用多个温度测点、多个未来时间步的计算模型。文章通过假设热流变化呈三角波形,计算结构内部温度场,并取其中数点温度信息作为反问题输入条件迭代反演得到外壁热流响应,得到热流误差不超过0.5%、温度误差不超过0.01%的理想结果,并得到测点数量、位置等因素对计算误差的影响。该计算方法可应用于包装结构在模拟火灾等特殊环境中的外壁热响应研究。     

卫星三向力限FMD振动夹具设计

文章论述了某卫星三向力限FMD振动夹具的设计方法,并运用有限元方法分析了其频率和受力情况。通过两种力传感器分布方式的对比给出了优化设计方案。最后针对螺钉进行了校核,给出了选型依据。     

Optimization Design System for Composite Structures Based on Grid Technology

To solve the topology optimization of complicated multi-objective continuous/discrete design variables in aircmit structure design, a Parallel Pareto Genetic Algorithm （PPGA） is presented based on grid platform in this paper. In the algorithm, the commercial finite element analysis （FEA） software is integrated as the calculating tool for analyzing the objective functions and the filter of Pareto solution set based on weight information is introduced to deal with the relationships among all objectives. Grid technology is utilized in PPGA to realize the distributed computations and the user interface is developed to realize the job submission and job management locally/remotely. Taking the aero-elastic tailoring of a composite wing for optimization as an example, a set of Pareto solutions are obtained for the decision-maker. The numerical results show that the aileron reversal problem can be solved by adding the limited skin weight in this system. The algorithm can be used to solve complicated topology optimization for composite structures in engineering and the computation efficiency can be improved greatly by using the grid platform that aggregates numerous idle resources.     

风扇进气畸变三维非定常数值模拟技术研究

采用三维欧拉方程加体积力模型的方法, 发展了一套三维非定常进气畸变数值模拟程序, 以实现风扇/压气机在进气畸变条件下的全环面三维非定常数值模拟.利用该程序模拟计算了某航空发动机风扇进口稳态总压畸变条件下特性和流场结构, 并与试验结果进行了对比, 结果表明该程序用较小的计算机资源即可以实现对风扇全环面三维非定场畸变流场的模拟, 能够以较高的精度预估气流畸变对压气机/风扇特性的影响.      

冲压转子发动机切向驻涡燃烧室

介绍了冲压转子发动机的工作原理,提出了适用于这种发动机的切向驻涡燃烧室新概念;讨论了切向驻涡燃烧室的基本气动热力学和结构特点,并用数值计算方法对其进行了初步研究,给出了初步试验结果。