L8飞机从风洞到飞行的抖振相关性研究

介绍了Ｌ８飞机抖振边界修正结果，并与同类飞机Ｌ２９飞行抖振边界进行了比较；给出了Ｌ８飞机抖振边和轻度抖振边界预测值。同时将预测抖振边界和试飞得到的抖振边界作了比较。     

JL-6飞机抖振边界试飞技术及相关性分析

主要介绍了JL-6飞机抖振边界试飞的试验技术、测试技术和数据处理技术,给出了JL-6飞机的抖振边界试飞结果;介绍了JL-6飞机的抖振风洞试验的试验技术、试验条件和抖振边界风洞试验结果;利用风洞试验和飞行试验得到的数据进行了JL-6飞机抖振边界相关性分析。     

民用飞机抖振包线图绘制研究

介绍了飞机抖振形成的机理及民用飞机振动和抖振相关适航审定要求。在该适航审定要求的指导下,给出了民用飞机抖振边界试飞方法:加速法、减速法和收敛转弯法。抖振包线包括等高度曲线、等最大使用校正空速(VMO)曲线、重心修正曲线、等重量曲线四部分,分别了给出各个部分曲线的绘制方法,并根据抖振边界试飞数据得出抖振包线图。该图可供民用飞机设计、试飞以及编制飞行手册参考使用。     

大型客机后缘铰链襟翼巡航变弯度气动性能数值研究

更高、更快、减阻是飞机设计三大永恒的追求。传统的固定翼飞机在进行优化设计时需兼顾各种飞行条件,寻求一个折中的最优解,而变弯度机翼的概念能有效解决这个问题,符合上述飞机设计的三大追求。着重研究大型宽体客机后缘襟翼刚性变弯度对巡航气动效率及跨声速抖振边界的影响。首先基于下垂式铰链襟翼机构,编制了机构引导下带扰流板联合偏转的后缘襟翼运动仿真程序,以自动生成不同襟翼偏角的巡航构型。在此基础上对巡航构型进行非稳态气动计算,获得跨声速区机翼抖振边界。以该抖振边界作为约束条件,以襟翼偏角、迎角为双变量,获得Cl-K关系图,得到最优升阻比曲线。本文中襟翼偏角变化为0°~±3°,间隔1°;迎角范围为-2°~5°,间隔1°。计算结果表明,变弯度构型较不变弯度构型升阻比有所提高,抖振边界约提高10%;变弯度构型可提高不同设计点的气动效率,实现减阻省油;跨声速区机翼抖振边界的提高扩大了飞行包线,使得飞机能飞得更高、更快。     

基于谐振舵面的跨声速抖振抑制探究

跨声速抖振引起的非定常脉动载荷会造成飞行器结构疲劳甚至引发飞行事故,所以跨声速抖振的控制研究逐渐成为航空领域的热点。采用基于Spalart-Allmaras(S-A)湍流模型的非定常雷诺平均方程开展了基于谐振舵面的跨声速抖振抑制研究。首先验证静止NACA0012翼型的抖振边界和频率特性,然后分别从舵偏平衡位置、舵偏幅值、频率以及相角等角度研究了谐振舵面的控制效果。舵偏平衡位置等效于减小了翼型的有效迎角;幅值和频率对抖振抑制效果影响较大,当舵面振荡频率与抖振频率接近时发生共振现象;相角对控制效果有一定影响,在270°相角附近,升力系数幅值减小了60%。在合适的舵偏幅值、频率以及相角组合下,谐振舵面有可能成为跨声速抖振的有效开环控制策略。     

歼击机抖振边界试飞技术研究

本文介绍歼击机抖振边界的试飞技术，比较了几种试飞方法的优缺点及驾驶技术，指出平飞拉起的试飞方法在过载和迎角的关系上较其它方法对应较好，可以作为主要的试飞方法，测试技术采用翼尖加速度和翼根弯矩法。数据处理除常用的均方根值法外，还提出了用功率谱密度的方法来建立与迎角的关系曲线，由此得到抖振起始迎角，还指出，为较确切抖振起始迎角，采用翼尖加速度，翼根弯矩的均方根值法和功率谱密度法进行综合分析，是一种行之     

飞机抖振问题研究现状综述

综述了国内外对于飞机抖振问题研究的现状。主要介绍了目前国外对于飞机跨音速激波－附面怪相互作用诱导的机翼抖振、低速大攻角下分离流诱导的机翼抖振、垂尾抖振的试验技术和理论方法、研究成果以及发展趋势。另外，也简单综述了垂尾抖振减缓的几种方法，并对这些方法作了评述。     

飞机垂尾抖振响应的飞行试验研究

介绍了国内外垂尾抖振试飞的最新进展情况,并就抖振试飞中可以采用的试飞方法,从理论上进行了分析。飞行试验采用收敛转弯的试飞方法,通过在左、右垂尾上加装的振动加速度传感器,得到了不同马赫数下垂尾的抖振响应情况。在对数据进行均方根分析、时频分析和自功率谱密度分析等方法的基础上建立起抖振响应和迎角、频率的关系后发现：垂尾抖振响应主要集中在垂尾低阶模态频率上;垂尾的抖振响应随迎角、马赫数的增加而增加,其中受迎角的影响大于受马赫数的影响;且飞机在超过初始抖振迎角以后,随迎角的继续增加,垂尾翼尖后缘处的抖振响应显著大于垂尾翼尖前缘位置。     

涡破裂诱导的垂尾抖振气动弹性分析

通过试验方法分析了三角翼前缘分离涡与垂尾抖振之间的关系,深入研究了尾迹流动对垂尾抖振各阶模态的激励作用。计算得到了垂尾模型固有频率及各阶模态。在风洞试验中,应用激光片光烟流场显示技术,得到了三角翼模型在风速为30 m/s下,各迎角的涡结构;使用加速度传感器测量了垂尾翼根和翼梢的抖振响应;使用热线风速仪测量了垂尾翼根和翼梢位置的脉动速度分量。结果表明:前缘涡破裂后产生的高湍流度的尾迹是垂尾抖振的直接原因,抖振边界与涡破裂的强度和位置有关;涡破裂后尾迹与垂尾产生共振,使得抖振加速度响应频率与垂尾固有频率一致;涡破裂后,在较小迎角下,尾迹对垂尾的高频振动模态的激励较为明显,在较大迎角下,涡破裂流动对垂尾低频振动模态的激励加强了。     

激波控制鼓包提高翼型跨声速抖振边界

翼型抖振边界是仅次于升阻比的一项重要气动指标.采用定常雷诺平均Navier-Stokes方程,以升力线斜率平缓及激波位置振荡作为基本判据确定了RAE2822翼型在指定跨声速来流条件下的抖振边界.通过大量计算流体力学(CFD)验证,针对RAE2822翼型设计了一种特定外形的激波控制鼓包并确定了其具体安装位置.该激波控制鼓...     

先进战斗机全动V尾抖振动强度设计与验证

大迎角（AoA）机动飞行能力是先进战斗机的标志性指标之一，中国先进战斗机采用V型垂尾布局的气动设计方案，可充分实现其良好的大迎角机动可控飞行。飞机在大迎角机动飞行时，前机身分离流所产生的高强度脱体涡破裂后产生的非定常扰流将不可避免地打在V型垂尾翼面上，导致V尾结构发生严重的抖振，这不仅会影响飞机的飞行品质等性能，还会导致V尾结构的疲劳损伤，大幅增加飞机的使用维护成本。本文详细阐述了其研发设计过程中攻克的以下关键技术：全动V尾抖振风洞试验"刚/弹"组合模型的设计技术与风洞试验方法，抖振风洞试验的动态测试结果向飞机尺度进行相似转换的原理；基于RANS/LES混合算法进行V尾结构抖振响应的CFD/CSD耦合计算方法；基于正加速度反馈（PAF）的V尾抖振响应压电控制技术；V尾抖振动态疲劳载荷谱的编谱方法与试验实施方案。本文为解决中国先进战斗机、无人机V尾结构抗抖振动强度设计与验证建立了一套较完备理论分析技术、设计准则和试验方法。     

Flow characteristics around airfoils near transonic buffet onset conditions

In transonic flow, buffet is a phenomenon of flow instability caused by shock wave/boundary layer interaction and flow separation. The phenomenon is common in transonic flow, and it has serious impact on the structural strength and fatigue life of aircraft. In this paper, three typical airfoils: the supercritical OAT15A, the high-speed symmetrical NACA64A010, and the thin, transonic/supersonic NACA64A204 are selected as the research objects. The flow fields of these airfoils under pre-buffet and buffet onset conditions are simulated by Unsteady Reynolds Averaged Navier-Stokes (URANS) method, and the mode analysis of numerical results is carried out by Dynamic Mode Decomposition (DMD). Qualitative and quantitative analysis of the shock wave motion, shock wave intensity, shock foot bubble and trailing edge separation, and pressure coefficient fluctuation were performed to attain deep insight of transonic buffet flow features of different airfoils near buffet onset conditions. The results of DMD analysis show that the energy proportion of the steady mode of these airfoils decreases dramatically when approaching the buffet onset angle of attack, while the growth rate of the primary mode increases inversely. It was found that at the onset of buffet, there exist different degrees of merging behavior between shock foot bubble and trailing edge separation during one buffet cycle, and the instability of shock wave and separation induced shear layer are closely related to the merging behavior.     

机翼跨声速抖振研究进展

跨声速飞行中,激波附面层干扰会引起激波周期性自激振荡,这种现象称之为跨声速抖振。跨声速抖振引起的脉动载荷有可能造成结构疲劳甚至引发飞行事故,该问题一直是航空领域的研究难点。本文从风洞试验和数值模拟两个方面总结了跨声速抖振研究的主要方法,重点综述了近几年在跨声速抖振机理研究方面以及结构运动对抖振响应特性的影响方面取得的新进展,简要总结了跨声速抖振的被动控制及主动控制方法。在此基础上,提出了跨声速抖振后续研究的重点方向:抖振机理的进一步探究,结构弹性特征对抖振特性的影响以及闭环主动控制等。     

开缝空腔抑制翼型跨声速抖振的数值模拟

采用非定常雷诺平均Navier-Stokes(URANS)方法计算了18%双圆弧翼型的跨声速抖振特性,分析了翼面激波振荡及流场结构演化的特点,研究了在翼型表面开通气空腔抑制跨声速抖振的可行性,对空腔深度、开缝数目对激波振荡的抑制效果进行了对比分析。计算发现,18%双圆弧翼型的跨声速激波自激振荡只有向前的运动,没有向后的运动,开缝空腔能够抑制翼型跨声速抖振,但对抖振频率影响不大;空腔深度大,抑制效果好,但空腔深度变化对振荡频率影响不大;开2、3、4个槽缝抑制抖振的效果差别不大,开缝数量对抖振频率影响不大。     

Characteristic analysis of lock-in for an elastically suspended airfoil in transonic buffet flow

Numerical simulations are performed to study the aeroelastic responses of an elastically suspended airfoil in transonic buffet flow, by coupling the unsteady Reynolds-averaged Navier-Stokes (RANS) equations and structural motion equation. The current work focuses on the char-acteristic analysis of the lock-in phenomenon. Great attentions are paid to studying the frequency range of lock-in and the effects of the three parameters, namely the structural natural frequency, mass ratio and structural damping, on lock-in characteristic of the elastic system in detail. It is found that when the structural natural frequency is close to the buffet frequency, the coupling fre-quency of the elastic system is no longer equal to the buffet frequency, but keeps the same value as the structural natural frequency. The frequency lock-in occurs and stays present until the structural nature frequency is near the double buffet frequency. It means that the lock-in presents within a broad range, of which the lower threshold is near the buffet frequency, while the upper threshold is near the double buffet frequency. Moreover, the frequency range of lock-in is affected by mass ratio and structural damping. The lower the mass ratio and structural damping are, the wider the range of lock-in will be. The upper threshold of lock-in grows with the mass ratio and structural damping decreasing, but the lower threshold always keeps the same.     

Self-sustained shock oscillations on airfoils at transonic speeds

Self-sustained shock wave oscillations on airfoils at transonic flow conditions are associated with the phenomenon of buffeting. The physical mechanisms of the periodic shock motion are not yet fully understood even though experiments performed over fifty years ago have demonstrated the presence of oscillatory shock waves on the airfoil surfaces at high subsonic speeds. The unsteady pressure fluctuations generated by the low-frequency large-amplitude shock motions are highly undesirable from the structural integrity and aircraft maneuverability point of view. For modern supercritical wing design with thick profiles, the shock-induced fluctuations are particularly severe and methods to reduce the shock wave amplitudes to lower values or even to delay the oscillations to higher Mach numbers or incidence angles will result in expanding the buffet boundary of the airfoil. This review begins with a recapitulation of the classical work on shock-induced bubble separation and trailing edge separation of a turbulent boundary layer. The characteristics of the unsteady pressure fluctuations are used to classify the types of shock-boundary layer interaction. The various modes of shock wave motion for different flow conditions and airfoil configurations are described. The buffet boundaries obtained using the standard trailing edge pressure divergence technique and an alternative approach of measuring the divergence of normal fluctuating forces are compared to show the equivalence. The mechanisms of self-sustained shock oscillations are discussed for symmetrical circular-arc airfoils at zero incidence and for supercritical airfoils at high incidence angles with fully separated flows. The properties of disturbances in the wake are examined from linear stability analysis of two-dimensional compressible flows. The advances in high-speed computing make predictions of buffeting flows possible. Navier–Stokes solvers and approximate boundary layer-inviscid flow interaction methods are shown to give good correlation of frequencies and other unsteady flow characteristics with experiments. Finally, passive and active methods of shock oscillation control show promising results in delaying buffet onset to higher Mach numbers or incidence angles, thus enhancing the transonic performance of airfoils.     

动力效应对民机高速抖振特性影响数值研究

民机的高速抖振通常是由机翼上激波诱导的分离所致,而发动机动力效应可能会对机翼上激波的强度带来明显影响.基于经过TPS标模及DLR-F6标模算例验证的、在多块结构化网格系统上求解雷诺平均N-S方程的数值方法,结合通过定常计算结果判定抖振发生原因及起始升力系数的方法,研究发动机动力效应对某民机巡航构型高速抖振特性的影响.结果表明:动力效应给基于通气短舱设计外形的高速抖振特性带来了不利影响,使其抖振起始升力系数降低约1.3％总升力系数.