柔性转子逆回旋振动特性的研究

论述了具有陀螺效应的柔性转子在各向异性支承条件下回旋振动的特性，推导出了转子在正回旋激励作用下产生逆回旋振动的条件，提出转子振动存在逆回旋带的概念，并举例说明了转子在整个转速范围和振动频率范围内回旋振动的特点，作出了逆回旋带的曲线图。     

高温度梯度定向凝固装置的研究

本文介绍了自行设计的具有高温度梯度的定向凝固装置,最高温度梯度可达230℃/cm。该装置温度场的理论分析和实验表明,在炉底部增加一个内径很小的加热圈;在冷却器中采用具有高激冷能力的低熔点Ga-In-Sn液态金属为冷却液;都能显著提高温度梯度和增加稳态凝固区的长度。     

吉林陨石（H5）的冲击压缩线及其意义

在二级轻气炮动高压装置上运用电探针技术测量了具有H群球粒陨石典型代表性的吉林陨石冲击压缩线。当冲击压力>～70GPa时,吉林陨石发生相变,其高压相零压密度为4.425g/cm~3,硅酸盐部分高压相零压密度为4.068g/cm~3。吉林陨石冲击压缩性质的研究结果与地球形成的星子堆积模型(IAB铁陨石+H群球粒陨石)一致。此外,根据陨石或其类似物的冲击压缩线,用阻抗匹配原理计算了主要类型陨石中重要冲击特征形成的最小碰撞速度,揭示了陨石冲击效应形成的动力学条件与空间环境。     

湍流边界层的湍流参数测量和研究

利用DANTEC三维激光多普勒测速仪对水槽壁面边界层的湍流参数进行了测量和分析，并与经典实验曲线做了比较。同时就摩擦速度的计算与涡粘系数的分布曲线展开了讨论。     

光折变晶体多重存储实验研究

本文首先讨论了在光折变晶体同一体积内复用多幅全息图的等衍射效率记录方法 ,即递减时间曝光方法。然后采用这种曝光方法 ,分别以掺杂为 0 .0 3 %的Fe :LiNbO3和双掺杂晶体Zn :Fe:LiNbO3为存储介质 ,以Δθ=ΔΘ(ΔΘ =0 .0 94°)为复用角度间隔 ,存储了 12个字母 ,并再现出了清新的图像。     

低湍流度风洞中的斜置翼三维边界层测量试验研究

在西工大低湍流度风洞中，于不同后掠角和湍流度下，以４５°单丝热线探头，在斜置翼上测量三维边界层速度型并计算特征参数的情况表明：横流影响的规律性明显，三维速度型扭曲相当复杂；后掠角和湍流度增大时，速度型和厚度的发展、不同层次的流线偏移和特征参数的变化受横流影响更为明显。     

关于用来确定机构速度瞬心的“三心定理”的直接证明及若干注记

本文根据三构件中两构件相对于第三构件的三种运动情况,分别讨论了机构中三构件间速度瞬心的位置关系。当构件1和2相对构件3分别以不同的角速度绕瞬心P_(13)和P_(23)转动时,则构件1和2的瞬心P_(12)位于瞬心P_(13)和P_(23)的连线上。对这一结论的讨论方法能够代替通常用于证明“三心定理”的反证法。当构件1和2相对构件3以相同的角速度分别绕瞬心P_(13)和P_(23)转动时,则瞬心P_(12)应位于瞬心P_(13)和P_(23)连线的平行线上无穷远处。当构件1和2相对构件3分别是绕瞬心P_(13)的转动和以速度V_(23)作平动时,则瞬心P_(12)位于过瞬心P_(13)且垂直于速度V_(23)的直线上。当构件1和2相对构件3都作平动时,则构件1和2之间以速度V_(12)作相对平动,其瞬心P_(12)位于V_(12)的垂线上无穷远处。文中给出了两个应用实例。     

A thermal activation based constitutive model for the dynamic deformation of AA5083 processed by large-scale equal-channel angular pressing

Aluminum alloy 5083 (AA5083) processed by large-scale Equal-channel angular pressing (ECAP) is an excellent engineering material with great prospects for industrial applications. An accurate assessment of the underlying constitutive relationships with easily determined material constants is critical for the predictive design and informed processing of such structural materials. To develop such a design framework, uniaxial dynamic compressive tests over a wide range of temperatures (293–573 K) were carried out for an ECAP-processed AA5083 alloy. Additionally, the microstructure before and after dynamic loading was characterized by SEM and TEM. Based on the experimental results, a new dynamic constitutive model, based on thermal activation theory, was established to describe the plastic flow behavior of the AA5083 alloy that incorporates the effects of plastic strain, temperature, and strain rate. The input parameters of the new model were determined using a particle swarm optimization (PSO) method. The model predictions show excellent agreement with experimental results, which suggests that the current predictive constitutive model is highly effective in reproducing the dynamic deformation behavior of the large-scale ECAP-processed AA5083.     

Experiments on unsteady vortex flowfield of typical rotor airfoils under dynamic stall conditions

A new experiment for airfoil dynamic stall is conducted by employing the advanced particle image velocimetry(PIV) technology in an open-return wind tunnel. The aim of this experimental investigation is to demonstrate the influences of different motion parameters on the convection velocity, position and strength of leading edge vortex(LEV) of airfoil under different dynamic stall conditions. Two different typical rotor airfoils, OA209 and SC1095, are measured at different free stream velocities, oscillation frequencies, and angles of attack. It is demonstrated by the measured data that the airfoil with larger leading edge radius could notably decrease the strength of LEV. The angle of attack(Ao A) of airfoil can obviously influence the dynamic stall characteristics of airfoil,and the LEV would be effectively inhibited by decreasing the mean pitch angle. In addition, the convection velocity of LEV is estimated in this measurement, and the results demonstrate that the influence of airfoil shape on convection velocity of LEV is limited, but the convection velocity of LEV would be increased by enlarging the oscillation frequency. Meanwhile, the convection velocity of LEV is a time variant value, and this value would increase as the LEV convects to the trailing edge of airfoil.     

卫星太阳能帆板的撞击问题

本文研究卫星帆板展开过程中的撞击问题，用子结构方法和单向递推组集方法行到经铰坐标和柔性体模态坐标为系统广义坐标的撞击阶段柔性多体系统的动力学方程，由与撞击有关约束方程的Ｌａｇｒａｎｇｅ乘子导出撞击力的计算公式，计算了卫星帆板在撞击过程中撞击力的最大值和卫星姿态角速度的变化规律。计算结果表明，对柔性体之间的碰撞，卫星姿态角速度在变化过程中呈现上下波动的趋势。