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刘永刚%沈星%赵东标%裘进浩 《宇航材料工艺》2007,37(5):18-21,33
以提高交叉指形电极压电纤维复合材料诱导应变和挟持应力为目的,采用有限元软件ANSYS分析了电极区聚合物参数、交叉指型电极结构和压电相体积分数对压电纤维复合材料诱导应变和挟持应力的影响。结果表明:增加电极区聚合物的介电常数或减小电极区聚合物的厚度,能够提高元件的诱导应变和挟持应力,元件诱导应变最大可达173με;减小分支电极的周期或者适当增大分支电极的宽度,可以有效地提高元件的作动性能;提高压电纤维体积分数,有利于提高元件的作动性能。 相似文献
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本文用保角转绘加剪切变换生成三维机翼与翼身组合体C-H型网格,并在这类网格拓扑上,用有限体积法研制出可供分析机翼与翼身组合体绕流的三维欧拉方程计算程序。本方法的特色是改进了机翼表面网格点的分布,使机翼后缘与网格线一致;采用了当量机身,使机岙表面到对称面光滑过渡;嵌入了边界层粘性修正。改善了计算结果。数值计算表明,对粘性影响较大的超临界绕流,边界层修正效果显著。 相似文献
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六喷管超音速引射器性能的理论分析和实验研究 总被引:2,自引:1,他引:2
对某一定尺寸的六喷管超音速引射器进行气动性能的实验研究。结果表明:随着主次流压比P*p/P*s增加,引射系数及修正引射系数下降;当引射系数增加时,混合管动量修正系数Km下降,但主喷管流量系数μ变化不大。对上述工况进行理论计算的结果与实验数据符合良好。 相似文献
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华东地区围护结构节能研究 总被引:2,自引:0,他引:2
根据南京市的典型年逐时气象参数,对于该市的某一座高层建筑物,应用自编的逐时动态负荷模拟程序,输入围护结构(窗户、墙体和屋顶)相关的物理参数及其与周围环境的关系(地点及朝向等),计算围护结构冬季采暖期散热量及夏季制冷得热量。结果表明,采用双层塑窗代替单层塑窗,使用节能墙体代替传统墙体能够使得冬季围护结构传散热量减少51%,夏季围护结构总得热量减少46%。因此,这一结果为华东地区建筑节能技术提供了理论依据。 相似文献
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流体推力矢量喷管型面固定、活动部件少、结构重量轻,能够为高机动飞行器提供有效的飞行控制手段,但无源流体推力矢量喷管热喷流的偏转控制规律尚未完全掌握。为了推进无源流体推力矢量技术的实用化,本文设计研制了适用于微型涡喷发动机的耐高温喷管模型,对该喷管在微型涡喷发动机热喷流状态下的控制规律进行研究。利用非接触光学显示和测量手段——红外热成像拍摄和粒子图像测速(PIV)技术对主射流流动特性进行研究,获得流动矢量角随二次流控制阀门闭合度变化的控制规律;利用六分量盒式天平测力实验研究无源流体推力矢量喷管的力学特性,获得推力矢量角随二次流控制阀门闭合度变化的控制规律。研究结果表明:该构型喷管在微型涡喷发动机热喷流下主射流连续可控偏转,最大流动矢量角为-12.3°/12.3°,最大推力矢量角为-12.9°/12.8°,控制规律接近线性,不存在主射流偏转突跳问题。 相似文献
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《中国航空学报》2020,33(6):1625-1641
The Tilt Quad Rotor (TQR) has complex dynamics characteristics, especially in conversion mode. It is difficult to build the dynamic model of the TQR and the environmental factors have a great influence on it. To solve the problem of control in conversion mode of TQR, this paper carries out the design of the controller based on improved Active Disturbance Rejection Control (ADRC). According to the characteristics of flight in conversion mode, Tracking Differentiator (TD) with explicit model is used to solve the problem of multiple integrals when the system is high-order system. Extended State Observer (ESO) with Radial Basis Function (RBF) neural network is used to estimate and compensate for internal and external uncertainties, and the adaptive sliding mode control in Nonlinear State Error Feedback (NLSEF) is used to improve the response speed of the controller and reduce the parameters which should be tuned. Through the flight control simulation of the TQR, the validity and rationality of the control system are verified. 相似文献
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Air route network optimization,one of the essential parts of the airspace planning,is an effective way to optimize airspace resources,increase airspace capacity,and alleviate air traffic con gestion.However,little has been done on the optimization of air route network in the fragmented airspace caused by prohibited,restricted,and dangerous areas (PRDs).In this paper,an air route network optimization model is developed with the total operational cost as the objective function while airspace restriction,air route network capacity,and non-straight-line factors (NSLF) are taken as major constraints.A square grid cellular space,Moore neighbors,a fixed boundary,together with a set of rules for solving the route network optimization model are designed based on cellular automata.The empirical traffic of airports with the largest traffic volume in each of the 9 flight information regions in mainland China is collected as the origin-destination (OD) air port pair demands.Based on traffic patterns,the model generates 35 air routes which successfully avoids 144 PRDs.Compared with the current air route network structure,the number of nodes decreases by 41.67%,while the total length of flight segments and air routes drop by 32.03% and 5.82% respectively.The NSLF decreases by 5.82% with changes in the total length of the air route network.More importantly,the total operational cost of the whole network decreases by 6.22%.The computational results show the potential benefits of the model and the advantage of the algorithm.Optimization of air route network can significantly reduce operational cost while ensuring operation safety. 相似文献
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A coupling fluid-structure method with a combination of viscous wake model(VWM),computational fluid dynamics(CFD) and comprehensive structural dynamics(CSD) modules is developed in this paper for rotor unsteady airload prediction. The hybrid VWM/CFD solver is employed to model the nonlinear aerodynamic phenomena and complicated rotor wake dynamics;the moderate deflection beam theory is implemented to predict the blade structural deformation; the loose coupling strategy based on the ‘delt method' is used to couple the fluid and structure solvers.Several cases of Helishape 7A rotor are performed first to investigate the effect of elastic deformation on airloads. Then, two challenging forward flight conditions of UH-60 A helicopter rotor are investigated, and the simulated results of wake geometry, chordwise pressure distribution and sectional normal force show excellent agreement with available test data; a comparison with traditional CFD/CSD method is also presented to illustrate the efficiency of the developed method. 相似文献