整体壁板三维裂纹应力强度因子计算与分析

近年来,整体壁板成为飞机结构设计上一个新的研究方向。针对典型的飞机整体壁板,应用有限元软件ABAQUS建立了含裂纹整体壁板的参数化模型,对裂纹在凸台和筋条中的扩展轨迹进行三维裂纹扩展模拟。分析了裂纹在扩展过程中,凸台、筋条、蒙皮中裂纹应力强度因子的变化情况以及凸台、筋条的止裂性能。研究结果对整体壁板的损伤容限设计和评定具有一定的指导意义。     

宽带数字信道化接收机技术的热点和发展趋势

数字信道化接收机具有瞬时频带宽、动态范围大、能实现超宽带侦察的特点,能较好地满足现代电子战接收机的要求。首先介绍了数字信道化接收机的基本原理,在此基础上,重点分析了数字信道化接收机在信道化过程中的研究热点和难点,并简述了信道化接收机技术的发展趋势。     

气象卫星数字基带信号解码的两种方法

论述利用计算机对气象卫星数字基带信号解码的两种方法。方法一是在开环条件下对基带采样跟踪与智能判决。方法二是基于最优检测原理 ,在分相码 (Manchester码 )的解码中简化了正交积分锁相环 ,采用单积分器辅助计算机智能判断 ,对基带实现最优检测     

用遥测数据预报导弹落点的误差分析

针对利用遥测数据进行导弹落点预测这一方法 ,分析了误差源 ,在此基础上建立并编写了干扰弹道模型 ,研究讨论了这种方法在进行落点预测时所造成的预测误差。计算结果表明 ,仅仅利用遥测数据进行导弹落点预测有很大的误差 ,必须结合外测手段才能做出较为准确的落点预测     

基于VRML的航天模拟训练系统

使用虚拟现实建模语言（VRML）建立一个航天地面设备仿真实验和导弹弹体虚拟装配的模拟训练系统，操作者可使用浏览器通过网络进行交互式的虚拟实验和弹体装配，实现航天工程中部分高成本，高代价的实物操作训练功能，该系统具有较好的真实效果，显示了虚拟现实技术在航天工程中的广阔应用前景。     

0.8m 风洞风扇系统的设计和运转

为提高低速风洞的最大风速,根本的措施是设计高转速大功率的风扇系统。风扇系统的设计首先在于有一个良好的设计方法,选择高升阻比的风扇翼型,根据需要恰当地确定设计工况点,合理选择桨叶和反扭导流片的各个参数,如桨毂比、实度、升力系数和圆弧角等。设计中针对已经设计的外形,进行性能计算,可以迅速鉴别设计的优劣,检查是否能满足设计要求,节约研制成本和缩短周期。     

考虑配平特性的超声速客机低声爆气动布局优化研究

降低声爆水平是下一代超声速运输机研制需要解决的关键问题之一。低声爆优化通常使飞行器布局向着机翼后掠角增大、机翼沿机身方向分布范围增大的趋势发展,给飞行器的配平和低速特性带来不利影响。以某超声速客机基本构型为研究对象,建立基于类别/形状函数的翼身组合体参数化建模方法;基于超声速线化理论分析外形几何参数对声爆水平的影响。在此基础上,分别针对机身轮廓、机翼平面形状以及扭转角分布对该构型进行低声爆优化和俯仰力矩特性优化,并采用CFD 方法对优化结果进行校核。结果表明：与基准构型相比,在不显著增加俯仰力矩的基础上,优化构型的阻力降低了19 cts,近场过压显著降低,地面声爆响度降低5.1 PLdB。     

Estimation of ground range on the sweep frequency backscatter leading edge

The high frequency management system with backscatter radar supplies the real time ionosphere channel conditions to high frequency users, which leads to the demand for the ground range between the radar location and the scatters on the distant ground. The ionosphere electron density profile is usually inversed to obtain the ground range. An inversion algorithm, with which the ground range on the leading edge of the backscatter ionograms can be obtained without electron density, is presented in this paper. The ray path geometry of the backscatter sounding and the change in the group path on the leading edge with operating frequency are used to derive the ground range. Synthesized backscatter ionogram and experimental backscatter ionograms are processed to validate the algorithm. The results indicate that the algorithm is usable for high frequency management system.     

Multi-objective Optimization Method for Automatic Drilling and Riveting Sequence Planning

 There are numerous riveting points on the large-sized aircraft panel, irregular row of riveting points on delta wing. It is es-sential to plan the riveting sequence reasonably to improve the efficiency and accuracy of automatic drilling and riveting. Therefore, this article presents a new multi-objective optimization method based on ant colony optimization (ACO). Multi-objective optimization model of automatic drilling and riveting sequence planning is built by expressing the efficiency and accuracy of riveting as functions of the points’ coordinates. In order to search the sequences efficiently and improve the quality of the sequences, a new local pheromone updating rule is applied when the ants search sequences. Pareto dominance is incorporated into the proposed ACO to find out the non-dominated sequences. This method is tested on a hyperbolicity panel model of ARJ21 and the result shows its feasibility and superiority compared with particle swarm optimization (PSO) and ge-netic algorithm (GA).