基于等 Weber 数的结冰外形修正

由于设备条件的限制,在进行结冰风洞试验时,试验 Weber 数与目标 Weber 数往往存在差异,为了获得与目标 Weber 数对应的冰形,需要对试验结果进行修正。本文分析了进行 Weber 数修正的原因,提出了根据几何特征量进行结冰外形修正的方法,并以某超临界翼型为对象,对不同 Weber 条件下的结冰外形进行了仿真,研究了Weber 数变化对结冰的影响规律,在此基础上开展了基于等 Weber 数的结冰外形修正。研究发现：(1)Weber 数主要影响冰角特征,对水滴收集特性、结冰极限及驻点冰厚度影响较小;(2)存在一个敏感 Weber 数,低于敏感值时, Weber 数变化对结冰影响不大,当 Weber 数高于敏感值时,Weber 数变化对结冰有明显影响;(3)采用本文提出的冰形修正方法,能保证冰形的宏观轮廓与目标冰形一致,修正后的冰形能适量消除由于 Weber 数误差导致的冰形差异,提高试验的精度。     

Global aerodynamic design optimization based on data dimensionality reduction

In aerodynamic optimization, global optimization methods such as genetic algorithms are preferred in many cases because of their advantage on reaching global optimum. However, for complex problems in which large number of design variables are needed, the computational cost becomes prohibitive, and thus original global optimization strategies are required. To address this need, data dimensionality reduction method is combined with global optimization methods, thus forming a new global optimization system, aiming to improve the efficiency of conventional global optimization. The new optimization system involves applying Proper Orthogonal Decomposition (POD) in dimensionality reduction of design space while maintaining the generality of original design space. Besides, an acceleration approach for samples calculation in surrogate modeling is applied to reduce the computational time while providing sufficient accuracy. The optimizations of a transonic airfoil RAE2822 and the transonic wing ONERA M6 are performed to demonstrate the effectiveness of the proposed new optimization system. In both cases, we manage to reduce the number of design variables from 20 to 10 and from 42 to 20 respectively. The new design optimization system converges faster and it takes 1/3 of the total time of traditional optimization to converge to a better design, thus significantly reducing the overall optimization time and improving the efficiency of conventional global design optimization method.     

Optimization of entry-vehicle shapes during conceptual design

During the conceptual design of a re-entry vehicle, the vehicle shape and geometry can be varied and its impact on performance can be evaluated. In this study, the shape optimization of two classes of vehicles has been studied: a capsule and a winged vehicle. Their aerodynamic characteristics were analyzed using local-inclination methods, automatically selected per vehicle segment. Entry trajectories down to Mach 3 were calculated assuming trimmed conditions. For the winged vehicle, which has both a body flap and elevons, a guidance algorithm to track a reference heat-rate was used. Multi-objective particle swarm optimization was used to optimize the shape using objectives related to mass, volume and range. The optimizations show a large variation in vehicle performance over the explored parameter space. Areas of very strong non-linearity are observed in the direct neighborhood of the two-dimensional Pareto fronts. This indicates the need for robust exploration of the influence of vehicle shapes on system performance during engineering trade-offs, which are performed during conceptual design. A number of important aspects of the influence of vehicle behavior on the Pareto fronts are observed and discussed. There is a nearly complete convergence to narrow-wing solutions for the winged vehicle. Also, it is found that imposing pitch-stability for the winged vehicle at all angles of attack results in vehicle shapes which require upward control surface deflections during the majority of the entry.     

自适应复合材料薄壁梁形状控制

针对翼面和桨叶等升力面结构,以单闭室薄壁梁为典型结构模型,讨论自适应复合材料薄壁梁的弯曲和扭转,探讨控制结构形状的途径     

航空发动机涡轮盘榫槽的形状优化设计

给出了航空发动机涡轮盘榫槽的形状优化设计的数学模型,并用参变量评价函数法对该数学模型进行等价转换。用基于两点累积信息的原／倒变量展开的对偶优化方法ＤＥＯＲＣＴ对该问题进行求解。算例验证了本文思想及方法的正确性。     

混杂复合材料层合板抗冲击性能研究

为了探究复合材料层合板在实际应用中因承受冲击载荷而造成的结构安全问题,本研究采用实验和仿真相结合的方法,首先探究冲头形状对复合材料层合板损伤机理的影响,然后结合不同冲击能进一步揭示层合板的承载力和能量吸收变化规律。结果表明,相同冲击能下,层合板的损伤范围和承载力随着圆锥头、半球头、平头依次增加;相应的层合板的临界穿透能量随着圆锥头、半球头、平头依次增大;冲头形状和冲击能对层合板的吸能能力有较大的影响。     

参数曲线形状修改

提出一种新的、基于余弦伸缩函数、针对参数曲线的形状修改与变形方法。首先定义了特殊的伸缩函数 ,在此基础上构造了形状算子矩阵 ,其次将该矩阵与伸缩中心及主方向结合构造出两种变形矩阵 ,最后用变形矩阵去乘待变形曲线在局部坐标系下的位置向量 ,或用它乘以给定向量场再加待变形曲线在原坐标系下的位置向量从而产生变形效果。伸缩函数含有若干可变参数 ,每个参数可产生不同的形状修改效果 ,比如控制被修改部分与未修改部分间的连续阶 ,容易得到理想的变形效果。理论分析实例表明该方法在几何造型 ,计算机图形学等领域有潜在适用性。     

弹射过程座舱盖抛放轨迹的预测

通过分析座舱盖在各个不同抛放阶段的受力关系,并着重考虑了抛放过程中气动系数的修正和铆钉剪切的影响,最终建立了座舱盖抛放轨迹的预测模型.该模型可广泛用于预测不同型号座舱盖在各种飞行状态下的抛放轨迹.算例表明计算结果与实验数据一致,证明了模型的实用性和有效性.     

复杂构型金属橡胶毛坯铺设路径规划

基于金属橡胶毛坯自动化铺设工艺,对遗传算法进行合理改进,进行了复杂构型金属橡胶毛坯铺设的定位销优化设计和路径规划。针对定位销优化设计和路径规划问题,建立了改进的编码、交叉、变异算子,并提出评价因子对遗传算法的迭代过程进行评价。优化的定位销排布和铺设路径可以较好地实现复杂构型金属橡胶毛坯铺设,铺设10层时,优化路径对应的目标函数b的值比经验路径小54%,路径规划作用显著。单层路径规模对铺设效果影响较小;单层路径规模不同时,毛坯内部接触状态随着铺设螺旋卷长度的增加趋于一致。为复杂构型金属橡胶毛坯铺设提供了理论依据。      

基于超椭圆方程和序列响应面法的回转壳开孔形状优化

含有多种功能开孔的轻质回转壳结构是航空航天结构系统内的常用支撑构件,其开孔形状直接影响结构的静动态性能。以回转壳结构为对象,基于超椭圆方程和坐标映射变换推导了回转壳开孔边界的参数化表达,开展了开孔形状动力学优化研究。为提高结构优化计算的精度、效率和收敛性,提出了准等弧长方法和基于均匀设计的序列响应面近似建模方法(SRSM),以分别实现空间超椭圆曲线的精确逼近、减少结构有限元分析成本和加快迭代收敛。以非支配排序遗传算法Ⅱ(NSGA-Ⅱ)作为响应面模型求解算法,结合有限元分析构建了回转壳开孔形状优化设计流程,开展了最大化结构一二阶频率带隙的典型回转壳结构开孔形状优化设计。结果表明,基于超椭圆方程和序列响应面法的开孔优化方法获得了有效改进结构动态特性的回转壳开孔形状,对开展计算耗时工程结构形状优化设计具有一定应用价值。