含非线性联接的组合结构动态子结构分析

 本文研究由非线性隔振器耦联线性子结构形成的组合结构的动响应预估。基于实测子结构的脉冲响应函数,建立了组合结构的对接边界积分型动力学方程;找到了将其转化为标准常微分方程组的途径;用实验考核了上述方法。     

Bifurcation in a 3-DOF Airfoil with Cubic Structural Nonlinearity

Limit cycle oscillations (LCOs) as well as nonlinear aeroelastic analysis of a 3-DOF aeroelastic airfoil motion with cubic restoring moments in the pitch degree of freedom are investigated.Aeroelastic equations of an airfoil with control surface in an incompressible potential flow are presented in the time domain.The harmonic balance (HB) method is utilized to calculate the LCO frequency and amplitude for the airfoil.Also the semi-analytical method has revealed the presence of stable and unstable limit cycles,along with stability reversal in the neighborhood of a Hopf bifurcation.The system response is determined by numerically integrating the governing equations using a standard Runge-Kutta algorithm and the obtained results are compared with the HB method.Also the results by the third order HB (HB3) method for control surface are consistent with the other numerical solution.Finally,by combining the numerical and the HB methods,types of bifurcation,be it supercritical,subcritical,or divergent flutter area are identified.     

Nonlinear flutter wind tunnel test and numerical analysis of folding fins with freeplay nonlinearities

The flutter characteristics of folding control fins with freeplay are investigated by numerical simulation and flutter wind tunnel tests. Based on the characteristics of the structures, fins with different freeplay angles are designed. For a 0° angle of attack, wind tunnel tests of these fins are conducted, and vibration is observed by accelerometers and a high-speed camera. By the expansion of the connected relationships, the governing equations of fit for the nonlinear aeroelastic analysis are established by the free-interface component mode synthesis method. Based on the results of the wind tunnel tests, the flutter characteristics of fins with different freeplay angles are analyzed. The results show that the vibration divergent speed is increased, and the divergent speed is higher than the flutter speed of the nominal linear system. The vibration divergent speed is increased along with an increase in the freeplay angle. The developed free-interface component mode synthesis method could be used to establish governing equations and to analyze the characteristics of nonlinear aeroelastic systems. The results of the numerical simulations and the wind tunnel tests indicate the same trends and critical velocities.     

基于PD处理技术的雷达弱信号检测方法

针对脉冲跟踪测量雷达普遍存在的远距离弱信号检测能力不足的问题,基于PD（PulseDoppler,脉冲多普勒）雷达的杂波抑制与信号处理技术,提出脉冲雷达中的弱信号检测方法;详细分析了在脉冲跟踪测量雷达中应用PD处理技术的可行性,得出在一定约束条件下,可将PD处理技术运用于脉冲跟踪测量雷达,并提出了具体实现方法;最后,通过数据仿真和脉冲雷达实际测量数据进行验证,结果表明该方法能有效提高信噪比。     

Optimization design of chiral hexagonal honeycombs with prescribed elastic properties under large deformation

Flexible chiral honeycomb cores generally exhibit nonlinear elastic properties due to large geometric deformation. The effective elastic moduli and Poisson’s ratio typically vary with an increase in deformation. Here, the size and shape optimization of the chiral hexagonal honeycombs was performed to keep the Young’s moduli and Poisson's ratio unchanged under large deformations. The size of the honeycomb unit cell and the position coordinates of the key points were defined simultaneously as design variables. The equivalent Young's modulus and Poisson’s ratio of chiral honeycombs were calculated through geometric nonlinear analysis. The objective was to minimize the allowable tolerance between the prescribed and actual properties within the range of the target strain. A genetic algorithm was then adopted. The optimal results demonstrate that the chiral honeycombs can maintain effective elastic properties that do not vary under large deformation. These results are meaningful to morphing aircraft designs.     

侧向随动力作用下大展弦比柔性机翼的稳定性

 随动力能够诱发弹性结构发生颤振失稳。以侧向随动力和集中质量分别模拟发动机推力和外挂质量,考虑机翼垂直弯曲-扭转刚度比、集中质量大小、侧向随动力和集中质量的位置以及机翼后掠角和上反角的影响,研究了受侧向随动力作用的大展弦比柔性机翼的气动弹性稳定性。数值模拟所采用的大展弦比柔性机翼非线性气动弹性模型耦合了几何精确完全本征运动梁模型和ONERA动失速非定常气动力模型,该模型考虑了几何非线性、动失速和材料各向异性。模拟结果表明,侧向随动力对机翼颤振可以具有稳定作用,其具体表现依赖于若干变参数的影响,如：减小机翼垂直弯曲-扭转刚度比;发动机吊舱靠近翼根布置;使发动机推力作用点在法向上与机翼弹性轴靠近;单纯的集中质量避免布置在柔性机翼中部,且布置在机翼弹性轴之前或下方,这些设计或布置均有利于提高带发动机吊舱/有效载荷外挂的柔性机翼的气动弹性稳定性。     

Neural Networks Combined with Importance Sampling Techniques for Reliability Evaluation of Explosive Initiating Device

Concerning the issue of high-dimensions and low-failure probabilities including implicit and highly nonlinear limit state function, reliability analysis based on the directional importance sampling in combination with the radial basis function (RBF) neural network is used, and the RBF neural network based on first-order reliability method (FORM) is to approximate the unknown implicit limit state functions and calculate the most probable point (MPP) with iterative algorithm. For good efficiency, based on the ideas that directional sampling reduces dimensionality and importance sampling focuses on the domain contributing to failure probability, the joint probability density function of importance sampling is constructed, and the sampling center is moved to MPP to ensure that more random sample points draw belong to the failure domain and the simulation efficiency is improved. Then the numerical example of initiating explosive devices for rocket booster explosive bolts demonstrates the applicability, versatility and accuracy of the approach compared with other reliability simulation algorithm.     

太阳帆航天器姿态机动的复合控制研究

输入成型法无法消除姿态机动过程中的柔性振动,残留的柔性振动将改变大柔性太阳帆航天器的结构参数,影响姿态机动的控制精度。为此,基于两种控制手段（作用于太阳帆中心的喷气和作用于支撑杆顶端的电推进）的组合,提出复合控制方法,以消除姿态机动过程中的柔性振动。采用将帆面质量等效到支撑杆的简化方法,建立太阳帆航天器姿态运动与柔性振动的耦合动力学模型,并从减小振动模态的外加激励出发,根据简化的动力学模型,得到了两种复合控制的设计方法：消除某一阶的柔性振动方法和减小前n（n>1）阶的柔性振动方法。仿真结果表明,相比输入成型法,第二种复合控制方法不但机动时间短,还能够将姿态机动过程中的柔性振动抑制到5%,使机动角度精度优于0.003°。由于仅利用已有的控制手段,复合控制方法算法简单,适合于实际应用。     

航天器薄壳柔性附件展开耦合行为特性研究

为研究大范围运动柔性附件几何非线性和耦合效应与中心刚体的精确动力学行为,以薄壳结构柔性附件为研究对象,引入非线性应变和位移关系,利用虚功原理推导了做大范围运动带柔性附件航天机构的完整非线性动力学模型,所构建的模型包含了非线性几何变形及附加非线性项。针对线性和非线性模型,相应开展了大范围运动航天机构刚柔耦合数值分析。结果表明,随着转速增大,线性与非线性模型动力学特性产生根本差异,指出线性模型忽略了非线性耦合项的不足,而非线性模型可精确地预测大范围运动带柔性附件航天机构动力学行为。结论对航天机构定向和跟踪操作的动力学与控制具有重要的理论价值及工程实际意义。     

基于索膜有限元模型的翼伞气动变形仿真

对定常状况下翼伞的流固耦合变形问题进行了三维数值模拟。使用有限体积法计算了飞行时的气动载荷,分析了前缘切口和翼肋开孔对压强分布的影响;基于翼伞结构大位移小应变的特点建立了非线性索膜有限元模型,伞衣由不能承受弯矩的膜单元模拟,伞绳和切口加强带由只能单向拉伸受力的索单元模拟,仿真了受气动载荷后翼伞相对于理想设计位置的变形和应力分布。结果表明:该翼伞展长相对于设计值减小,"鼓包"形成后翼型最大厚度增大,伞衣变形后产生了额外的后掠角和攻角;最大等效应力主要集中在翼肋上的开孔和伞绳连接点处,需合理布置加强带以满足强度要求。