橡胶"O"形密封圈结构参数和失效准则研究

利用大变形、接触的非线性有限元理论建立了某固体火箭发动机密封结构的二维轴对称模型,用有限元软件计算出该结构在工作状态下的变形和应力。通过计算可知,在橡胶“O”形密封圈与上下法兰接触的位置产生最大的接触压应力,在密封槽槽口转角位置产生最大的剪切应力。对密封性能的各结构参数进行了分析,讨论了上下法兰张开间隙、初始压缩率、密封槽槽口及槽底倒角半径、密封槽宽、密封圈材料等典型参数的影响:上下法兰张开间隙、密封圈的初始压缩率对最大接触压应力的影响较大,而密封槽槽口和槽底处倒角半径对剪切应力影响明显。三维壳体结构的有限元分析结果表明,上下法兰在内压作用下产生不均匀的张开间隙,体现了三维结构的特点。不均匀的张开间隙与二维轴对称结果对比可知,以最小间隙作为设计间隙,二维轴对称分析模型可取代三维模型来分析该结构的密封性能。最后,确定了“O”形圈密封结构的最大接触应力和剪切应力失效准则。     

航天器中一种典型O形密封圈的有限元分析

对于有密封要求的航天器而言,O形密封圈在其中起到了至关重要的作用。文章首先对一种典型的法兰-O形密封圈结构进行合理的简化建模,然后利用有限元分析软件ABAQUS计算了特定压缩率下O形圈的力学性能参数,并讨论了摩擦系数、安装方式、法兰间隙、内压、温差等因素对密封性能的影响,对航天器密封接口的设计具有现实的指导意义。     

具有学习效应的单机可控加工时间排序问题研究

在经典排序问题中，工件的加工时间往往是一个常数，但在现代生产过程中，工件的加工时间受许多因素的影响。因此，研究工件具有学习效应的单机可控加工时间排序问题，其中工件的加工时间是其所在位置的函数，且与加工时间的控制变量有关。目标是求出最优的加工时间控制变量和最优的排序使得目标函数最小，目标函数包括极小化时间表长与控制费用的和、极小化总完工时间与控制费用的和、极小化总完工时间偏差和与控制费用和。证明他们都能转化为指派问题，从而多项式时间可解。并给出数值例子来说明问题是如何求解的。     

Integral inversion of GRAIL inter-satellite gravitational accelerations for regional recovery of the lunar gravitational field

We present an integral-based approach for high-resolution regional recovery of the gravitational field in this article. We derive rigorous remove-compute-restore integral estimators relating the line-of-sight gravitational acceleration to an arbitrary order radial derivative of the gravitational potential. The integral estimators are composed of three terms, i.e., the truncated integration, the low-frequency line-of-sight gravitational acceleration, and the high-frequency truncation error (effect of the distant zones). We test the accuracy of the integral transformations and of the integral estimators in a closed-loop simulation over the Montes Jura region on the nearside of the Moon. In this way, we determine optimal sizes of integration radii and grid discretisation. In addition, we investigate the performance of the regional integral inversion with synthetic and realistic GRAIL observations. We demonstrate that the regional inversion results of the disturbing gravitational potential and its first order radial derivative in the Montes Jura mountain range are less contaminated by high-frequency noise than the global spherical harmonic models.     

Resonant motion, ballistic escape, and their applications in astrodynamics

A special set of solutions governing the motion of a particle, subject to the gravitational attractions of the Earth, the Moon, and, eventually, the Sun, is discussed in this paper. These solutions, called resonant orbits, correspond to a special motion where the particle is in resonance with the Moon. For a restricted set of initial conditions the particle performs a resonance transition in the vicinity of the Moon. In this paper, the nature of the resonance transition is investigated under the perspective of the dynamical system theory and the energy approach. In particular, using a new definition of weak stability boundary, we show that the resonance transition mechanism is strictly related to the concept of weak capture. This is shown through a carefully computed set of Poincaré surfaces, at different energy levels, on which both the weak stability boundary and the resonant orbits are represented. It is numerically demonstrated that resonance transitioning orbits pass through the weak stability boundaries. In the second part of the paper the solar perturbation is taken into account, and the motion of the resonant orbits is studied within a four-body dynamics. We show that, for a wide class of initial conditions, the particle escapes from the Earth–Moon system and targets an heliocentric orbit. This is a free ejection called a ballistic escape. Astrodynamical applications are discussed.     

当前高校青年教师思想政治教育面临的问题及对策探析

受当前全球化浪潮的强势冲击和市场经济的负面影响,高校青年教师的思想政治教育面临一系列挑战,直接影响了高校思想政治教育的效果。要摆脱困境,必须坚持以人为本的教育理念,重视师德建设、创新教育方法、健全激励机制,切实增强思想政治教育的吸引力、说服力、影响力和感染力。     

带冠预扭涡轮叶片模态分析及动应力测试验证

介绍了航空发动机带冠预扭涡轮叶片非线性接触预应力模态分析机理,并以ANSYS软件为平台,对某型涡轴发动机动力涡轮叶片进行了模态分析。结果表明：非线性接触预应力模态分析方法得到的叶片盘9～13节径1阶频率与动应力测试频率在变化规律上保持一致,差别基本稳定在12%～13%,计算精度较传统方法有了明显的提高。     

Optimal guidance based on receding horizon control for low-thrust transfer to libration point orbits

This paper addresses the design and computation of a guidance law for a transfer mission from an orbit near the Earth to a halo orbit around the libration point L₂ in the Sun–Earth system. The guidance law, which is designed based on receding horizon control and compensates for launch velocity errors that are introduced by inaccuracies of the launch vehicle, is solved using the generating function method. During the design of the closed-loop guidance law, the entire transfer mission, which is considered a nonlinear optimal control problem, is evaluated to obtain a nominal reference trajectory. Using the launch velocity errors and the uncertainty of the model, a spacecraft controlled by the proposed guidance law tracks the reference trajectory. Furthermore, the original Riccati differential equation in the receding horizon control algorithm is replaced by an equivalent convenient form of the Riccati differential equation that is based on the generating function. The high-efficiency solution of the equivalent equation avoids the online direct integration of the original Riccati differential equation, which significantly increases the computational efficiency for the receding horizon control problem. Numerical simulations using a nonlinear bicircular four-body model demonstrate the capabilities of the proposed receding horizon guidance law for the transfer mission. In addition, the generating function method improves the computational efficiency by at least one order of magnitude over the backward sweep method in solving the receding horizon control problem.     

Effect of evaporation and solutocapillary-driven flow upon motion and resultant deposition of suspended particles in volatile droplet on solid substrate

Particle motion in a volatile droplet on a solid surface, especially the behavior of particles depositing in the vicinity of a solid–liquid–gas boundary line (contact line) is focused. This phenomenon is called the ‘coffee stain problem’. Motion and deposition of the particles suspended in distilled water droplets and distilled water–ethanol mixture droplets are discussed. The spatio-temporal particle motion is analyzed by the three-dimensional particle tracking velocimetry (3D PTV). A discussion of the morphology of the particles stuck to the solid surface after the dryout of the droplet is also given.     

高职院校学分制实施过程中存在的问题与对策

分析部分高职学院在实行学分制管理过程中遇到的外部和内部的问题,提出解决对策。