波动方程差分解法及其对矩形波导双T形接头的分析

对波动方程差分解法进行了研究 ,给出了电场的计算公式 ,将上述方法应用于矩形波导双T形接头的分析 ,得到了与实测相吻合的各端口反射系数值。     

TiBw/TA15复合材料板材超塑变形行为研究

研究了TiB_w/TA15复合材料板材在900～960℃、5×10^–4～10^–2s^–1条件下的超塑变形行为。结果表明,TiB_w/TA15复合材料流变应力随拉伸温度的升高和应变速率的减小而降低,在940℃、5×10^–3s^–1变形条件下获得的最大超塑性伸长率为439%。利用Zener–Hollomn参数和Arrhenius方程所建立的峰值应力本构方程为ε~·=3.55×10⁸[sinh(2.0×10^–2σ)]^1.99×exp(–6.381×10⁵/RT),其变形激活能Q=638.1kJ/mol。复合材料超塑性变形组织与拉伸温度和应变速率密切相关。高温低应变速率有利于基体α相的动态再结晶以及晶须与基体处孔洞的愈合,低温高应变速率下,孔洞更易萌生于增强相与基体结合界面的端部。动态再结晶对复合材料超塑性的发挥起着关键作用。     

进气道俯仰振荡状态的非定常数值仿真

为研究进气道俯仰振荡状态时的性能,耦合求解俯仰振荡运动和非定常Navier-Stokes方程,对平衡攻角为0°、振荡幅值为15°的进气道非定常流场进行了数值仿真。结果表明：在俯仰振荡状态下,进气道的性能发生周期性变化,存在一个类似于领结形状的滞环。     

低雷诺数条件下涡轮性能的计算研究

基于求解欧拉方程的方法,发展了能将多种不同损失模型耦合起来的涡轮S2流面准三维计算程序.并在不同雷诺数条件下对三台发动机涡轮部件性能进行了计算.计算结果表明,三套涡轮的效率及流通能力随雷诺数减小的变化量低于俄罗斯经验关联曲线所给出的变化量,但总体趋势比较吻合,不同的模型计算结果差别较大.      

预浸机织织物的本构关系

 预浸机织织物是一种未固化的织物复合材料,其性质既不同于纯织物材料也不同于固化后的织物复合材料,具有独特的力学性质。根据连续介质力学的理论,结合预浸织物的非线性的黏弹性特性,从代数不变量出发,推导了预浸织物的本构方程。同时对描述预浸织物性能的像框剪切试验的步骤及方法做了阐述。通过像框剪切试验的结果与本构方程的对比,验证了本构方程的正确性,该方程较好地描述了预浸积物的性质。本构方程的导出为研究空间充气结构的静态、动态及热分析奠定了一定的理论基础。     

迭代动力缩聚法的收敛性分析

 利用Lyapunov矩阵方程和Riccati矩阵方程解的理论,对迭代动力缩聚法的收敛性进行了分析证明,并给出了迭代收敛的充分条件。揭示了动力缩聚法与经典的子空间迭代法的内在关系,阐明了各自的优缺点。迭代动力缩聚法实质上是子空间迭代法的变形,它需要人为选择主辅自由度,而子空间迭代法需要人为选定初始迭代向量。从理论上讲,只有主辅自由度选择满足收敛的充分条件要求,才能保证迭代结果收敛到理论上的精确解。给出了一个数值算例,对几种算法进行了对比,并验证了本文的论点。     

Inverse design of low boom configurations using proper orthogonal decomposition and augmented Burgers equation

Mitigation of sonic boom to an acceptable stage is a key point for the next generation of supersonic transports. Meanwhile, designing a supersonic aircraft with an ideal ground signature is always the focus of research on sonic boom reduction. This paper presents an inverse design approach to optimize the near-field signature of an aircraft, making it close to the shaped ideal ground signature after the propagation in the atmosphere. Using the Proper Orthogonal Decomposition(POD) method, a guessed input of augmented Burgers equation is inversely achieved. By multiple POD iterations, the guessed ground signatures successively approach the target ground signature until the convergence criteria is reached. Finally, the corresponding equivalent area distribution is calculated from the optimal near-field signature through the classical Whitham F-function theory. To validate this method, an optimization example of Lockheed Martin 1021 is demonstrated. The modified configuration has a fully shaped ground signature and achieves a drop of perceived loudness by 7.94 PLdB. This improvement is achieved via shaping the original near-field signature into wiggles and damping it by atmospheric attenuation. At last, a nonphysical ground signature is set as the target to test the robustness of this inverse design method and shows that this method is robust enough for various inputs.     

Solitary and periodic waves in magneto–rotating plasmas: Effect of the Kappa–Cairns distributed electrons

The nonlinear propagation of ion–acoustic (IA) waves in a magneto–rotating plasma is studied by considering the Kappa-Cairns electron distribution. Employing the perturbation scheme, Korteweg–de Vries equation is derived. It is seen that both positive and negative potential solitons can be supported in the present plasma model. The numerical results reveal that the Kappa-Cairns distributed electrons modify features of the electrostatic waves significantly. The effects of non–thermal parameters, plasma rotation frequency, ion temperature, and the wave propagation angle on electrostatic solitary wave structures are also discussed here. It is found that the plasma parameters considerably influence the propagation of IA waves in rotating plasmas. Furthermore, using the bifurcation theory of planar dynamical systems to the K-dV equation, we have presented the existence of solitary and periodic traveling waves. Our study may be helpful to understand the behavior of ion–acoustic wave in the rotating plasma.     

基于目标加速度方向观测的微分对策制导律

针对延迟信息条件下的机动目标拦截问题,研究了一种考虑目标加速度方向观测的微分对策制导律。首先,针对引入目标方向观测信息末制导博弈问题,建立了微分对策数学模型。随后,利用状态依赖黎卡提方程求解微分对策问题,得到包含无延迟目标机动项的微分对策制导律,可以更为有效地拦截机动目标。最后,在延迟信息条件下,利用目标加速度方向观测的方法补偿延迟的目标加速度,再将补偿后的目标加速度信息取代无延迟的目标加速度,得到延迟信息条件下考虑目标加速度方向观测的微分对策制导律。仿真结果表明,新的制导律可以在延迟信息条件下有效地拦截机动目标。     

Positron nonextensivity contributions on the rational solitonic,periodic, dissipative structures for MKP equation described critical plasmas

New closed forms have been exposed that rational, trigonometric, periodical, explosive, hyperbolic and shock solutions can be usable in the ionosphere plasma of earth. To explore the nonextensive impacts on the features of nonlinear waves in this plasma model, using Riccati-Bernoulli sub-ODE process, the MKP equation has been solved. This method is very important in the study of dynamics and motion in fluids. Some of the obtained new potential solutions are prefect achievements in plasma observations and applications in ionosphere.