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。     

MSMA振动发电机的建模与仿真

振动发电就是利用电磁感应、压电技术、智能材料等将外部的机械振动能量通过一定装置转换成电能,实现机械振动能量和电能的转换.在分析磁控形状记忆合金（Magnetic Shape MemoryAlloy,简称MSMA）振动发电原理的基础上,利用MSMA智能材料的维拉利效应对振动能量进行收集,建立了MSMA振动发电机的数学模型,求出振动发电机感应电动势与压应力及外加磁场的数学关系.分析了振动应力幅值、频率的响应特性,仿真结果验证了MSMA振动发电的可行性.     

材料和尺寸参数对Rainbow型压电换能器发电能力的影响

给出了一种多方向振动能量收集装置的设计结构.为研究Rainbow型压电换能器材料、尺寸参数对其发电能力的影响,根据压电材料的机电耦合方程和对换能器的力学理论分析,建立了Rainbow型压电换能器开路电压与输出电能的数学模型.对开路电压模型进行了仿真验证,仿真结果与理论分析一致.对输出电能理论模型的数值模拟分析表明,金属基片的宽度与厚度、换能结构初始曲率半径的增大将会引起换能结构两片压电薄膜输出电能的降低;金属基片长度、压电薄膜宽度的增大将会引起两片压电薄膜输出电能的增加;压电薄膜长度、厚度的增大将会使得两片压电薄膜输出电能先增加后减小;铍青铜基片换能器要优于钢基片换能器;换能器弧形内侧压电薄膜的输出电能都要大于外侧压电薄膜.最后,结合Rainbow型压电换能器的力学分析给出了分析结果的合理解释.     

环氧树脂基形状记忆复合材料的制备与性能

以自制的形状记忆环氧树脂为基体,CCF300级碳纤维U-3160织物为增强材料,采用真空袋成型工艺制备形状记忆复合材料,分析碳纤维含量对复合材料的形状记忆性能的影响。结果表明,当碳纤维含量为0%~50%时,随着增强体碳纤维含量的增加,复合材料的形状固定率由98%降至91%,形状回复率也由98%降至91%。在有限次的循环实验中,循环次数对形状固定率和形状回复率没有明显的影响。     

Active shape control for flexible space structures using an optimal gyricity distribution

An active shape control approach for a circular flexible space structure is studied. The shape of these flexible structures may need active shape control due to some particular mission objectives. For example, antenna reflectors may have requirements for their shape accuracy to guarantee communication performance; and some solar sails may change their shape to realize different commissions during interplanetary flight. This paper investigates an active shape control process executed by the gyricity (stored angular momentum) distribution existing in the circular flexible space structure. The shape of the circular flexible space structure is expected to be reformed from a plane plate to a paraboloidal plate. An optimal gyricity distribution is derived based on the optimal control theory for systems described by partial differential equations. Distributed forces can be generated by the optimal gyricity distribution in a rotating field to implement the active shape control. The dynamic model of the circular flexible space structure is established for the active shape control through the finite element method. Numerical simulation validates the functionality of the shape control method, and illustrates the shape-adjusting process of the circular flexible space structure.     

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.     

直刃尖刀形状对超声辅助切削系统振动性能的影响

基于超声振动设计理论并结合超声振动变幅杆,设计了一种用于弱刚度材料超声辅助切割的直刃尖刀.建立了直刃尖刀和超声振动系统一体的有限元模型,系统分析了直刃尖刀刀体长度、厚度参数对超声振动系统谐振频率、振幅放大倍数和刀具纵向振幅的影响,探讨了刀具横向和侧向振幅沿刀具轴线方向的分布规律.针对特定的超声振动系统,确定了综合性能最优的刀具参数.研制了具有不同形状参数的去刃模拟刀具,并安装于同一超声振动系统进行测试,对仿真分析结论进行验证,理论分析与试验结果相一致.根据理论分析确定的最佳参数研制了直刃尖刀并测试了其振动性能.研究结论对超声辅助切削加工的直刃刀尖的研制提供了理论指导.     

关于飞机结冰的多重安全边界问题

边界保护是保障飞机安全性的重要方面,对目前国内外飞机结冰安全边界问题的研究现状及进展进行了综述,对飞机结冰致灾物理链路的影响因素及规律进行了分析,指出目前从飞行力学角度出发的安全边界尚未全面考虑飞机结冰致灾复杂物理现象的相关因素,并提出了飞机结冰多重安全边界的概念,将飞机结冰的安全边界分为气象边界、冰形边界和飞行安全边界。结合相应的物理规律和实际应用,按照飞机结冰导致性能恶化的影响程度、飞行操纵影响程度等对边界又进行了多重属性划分。进一步梳理了多重安全边界研究需解决的主要关键问题,提出了下一步的相关研究方向,可为飞机设计、适航认证、飞行操纵、航路规划、分级优化保护等方面的应用提供支撑和参考。     

飞机外形和结构件反求建模技术研究

 探讨了基于特征的飞机外形和结构件反求建模策略,并给出曲面特征和实体特征的定义,该方法支持具有完整特征表达的模型快速重建。提出了大规模散乱数据k近邻的空间球搜索算法,其逐步增大搜索范围的策略可有效提高搜索效率。研究了结构件与外形相关曲面特征的重建方法,当贴合面较窄、外形线接近于直线时,采用直纹面逼近,否则由蒙皮曲面等距间接求取。研究了基于工程约束的曲面形状修改算法,以B样条曲面需满足的点、线、面几何约束为目标约束,通过最小化形状修改前后差曲面的弯曲能得到精确满足目标约束的光滑曲面,推导了曲面弯曲能和曲线约束的表达式。最后,以飞机翼肋模型反求为例验证了所提方法的可行性。     

基于RCS序列的空间目标形状估计

将空间目标等效为椭球体,在分析椭球体RCS方向图的基础上,提出了利用空间目标RCS序列极大值与极小值比值来估计空间目标长短轴比值的方法。实测数据处理结果表明,该方法能有效估计出目标长短轴比值。目标长短轴比值反映了目标的形状信息,具有明显的物理意义,有利于后续的空间目标分类与识别。