相邻激励器合成射流流场数值模拟及机理研究

建立了将合成射流激励器腔体、出口喉道、外部流场作为单连域计算处理的吹／吸型边界模型。在此基础上,对不同相位差、不同振幅、不同频率的相邻激励器相互作用形成的合成射流流场进行了数值分析。计算结果表明：相邻激励器工作时的相位差、振幅不同、驱动频率不同对其形成的合成射流流场有很大影响,合成射流不再对称分布,流动将发生偏转。其机理是由于两激励器吸入和排出流体流动不同(不同相、不同幅值、不同频率),使得两列旋涡对不对称,因此在两列旋涡对之间存在涡量强度不同和压强梯度,从而引起旋涡对向低压侧和强涡量区偏转。     

Nb对富钛TiNiAl金属间化合物强化机制的影响

 采用力学压缩试验、扫描电镜和X射线衍射方法研究了Nb元素对于Ti₅₀Ni₄₂Al₈合金的力学性能和微观组织结构的影响。结果表明，Nb能够显著提高合金从室温到700 ℃之间的强度。在600 ℃时，Ti₅₀Ni₄₀Al₈Nb₂合金的压缩屈服强度和比强度分别为1 237 MPa和216 MPa/(g·cm^-3)，超过Rene95高温合金。微观组织观察及成分分析表明，Nb元素在基体和强化相Ti₂Ni（Al）中固溶，促进强化相的弥散析出和细化，并导致高强富Nb相的析出，从而提高了合金的强度。     

冗余驱动消除并联机构奇异研究

对空间并联机构的奇异性和冗余驱动消除机构奇异进行了研究。以Park关于奇异的分类为基础,明确指出了冗余驱动能够消除机构驱动奇异的原因,给出了冗余驱动个数与奇异空间降维关系的比较严格的数学推导过程。还对一种3自由度冗余并联机构的奇异性进行了分析,指出了其奇异空间的形状,并对冗余驱动消除奇异的效果进行了研究。其结果证实了冗余驱动与奇异降维之间的关系,对于进一步提高并联机构的性能提供了参考。     

实时数据库的主动机制研究与实现

主动机制是实时数据库管理系统（ＤＢＭＳ）的一个重要功能。在主动机制的基础上,实时ＤＢＭＳ能够根据数据库中某些数据及环境的变化,主动地作出一定的反应,执行预先设计的动作,而不仅仅是被动地执行用户的命令。文中主要介绍一个实时ＤＢＭＳ的主动子系统,采用事件－条件－动作的规则来实现其主动功能;讨论了规则的表示和存储结构,规则子系统的系统结构及与ＤＢＭＳ的联系;并详细介绍了条件评价器、规则检索优化、规则冲突     

最佳传力特性的偏置曲柄滑块机构解析法设计

本文根据偏置曲柄滑块机构的运动特性和传力特性所建立的函数关系,运用极值理论推导出给定条件下传力特性最佳的计算公式,大大方便了设计应用,值得推广。     

复杂空间四连杆传动系统的一种算法

1.引言 空间四连杆机构的运动关系是一个空间几何关系。确定四连杆相互位置时,存在着一球面与圆弧相交或两圆弧相交等情况,它们的运动与几何关系都以一些二次联立方程式表达。求解与根的判定都比较复杂,有时还要用迭代方法。本文所介绍的方法采用空间坐标变换,将空间四连杆机构的运动点转换到特定的平面内,利用平面三角形的几何关系求解。所用的方法都是典型的,简便易行,特别适用于计算机计算。     

Landing of the asteroid probe with three-legged cushioning: Planar asymmetric dynamics and safety margin

The probes landing on the surfaces of the asteroids can increase the scientific return of the exploration missions and also promote the development of deep space resources. Because of its excellent applicability to the uneven terrain and a lighter configuration than the four-legged mechanisms, the three-legged cushioning mechanisms are suitable for dissipating the impact energy and then quickly stabilizing the probe attitude when the probe lands on the micro-gravitational surfaces of the asteroids. Research on the landing dynamics of the probe facilitates to the design of the landing-cushioning mechanism and the optimization of its configuration, as well as the assessment of the landing safety. Comparing with the previous extensive related literature focusing on landing dynamics of the probes assisted by the four-legged cushioning mechanisms, this paper studies creatively the planar dynamics considering the asymmetric characteristic and the leg-leg coupling to understand the landing process of the asteroid probe with the three-legged cushioning mechanism and thereby to optimize the configuration of cushioning mechanism and assess safety margin of the landing. According to the touchdown status, the asymmetric landing modes are classified and the coupling issue in the construction of the landing models is explained. Consequently, two types of dynamics models describing the two-stages touchdown cushioning process of the probe are established. Then, five significant configuration factors of the cushioning mechanism are extracted, and their values combinations are designed according to the Taguchi orthogonal method. On this basis, the maximum safe landing attitude angles of the probe are solved by using these values combinations as the input conditions under the dangerous situations in different landing modes. The range analysis and nonlinear fitting methods are employed to discuss the influence of the configuration factors on the landing safety margin, and the favorable parameter values of the configuration factors are determined. Next, the influence of the ground obstacle on the landing safety margin and several methods to improve the margin are researched. Finally, the complete attitude changes of the probe in two representative landing cases are analyzed. The results studied in this paper can contribute to configuration optimization of the three-legged cushioning mechanisms and safety assessment of the legged probes landing on the asteroids, as well as to provide a reference for discussing the leg-leg coupling issue received less attention in landing dynamics of the probes with the four-legged cushioning mechanisms.     

加强高校数字化信息资源建设的几点思考

信息资源是教育信息化的关键,随着近几年高校信息资源建设工作的开展,影响和制约信息资源建设的诸多因素逐渐显现。加强高校信息资源建设,明确建设的组织与管理,正确处理知识产权问题,提高建设队伍人员素质,建立相应的鼓励和评价机制,对于推动信息资源建设的进程具有重要意义。     

可抛式延伸喷管展开过程运动与动力学仿真(英文)

针对固体火箭发动机可抛式延伸喷管运动机构的特点,建立了包括展开装置、释放机构、折转片等在内的延伸喷管整机模型。根据试验结果建立了燃气展开力样条曲线,利用机械系统动力学仿真分析软件ADAMS进行了延伸喷管展开动力学仿真,获取了延伸喷管运动构件的运动特性和约束的约束反力等结果。结果表明,运用ADAMS动力学仿真分析软件对延伸喷管展开过程中的动力学响应进行仿真分析是可行的。     

航天器DC/DC变换器启动特性建模分析研究

介绍和分析了单管正激型DC/DC变换器的工作原理,指出变换器内置输入滤波器决定了其启动瞬间阻抗特性;提出变换器内置滤波器构成了二阶欠阻尼系统,当有阶跃电压输入时,滤波电容充电电流会产生衰减振荡,即为浪涌电流产生的根本原因。在此基础上,文章运用＂拉普拉斯变换＂对浪涌电流的计算公式进行了推导,并推导出浪涌电流的时域公式。提出了单管正激型DC/DC变换器启动特性仿真模型的建立方法,并通过试验验证了仿真模型建立的有效性。