三维编织复合材料热物理性能的有限元分析

根据三维编织复合材料的细观结构,分别建立了三维四向和五向编织复合材料热物理性能的有限元模型.采用周期性的非绝热温度边界条件和位移边界条件,计算了三维四向和五向编织复合材料的整体等效热传导系数和热膨胀系数,计算结果同已有文献相比与实验值符合得更好.在此基础上,迸一步研究了编织角、纤维体积分数、编织结构等参数对材料热物理性...     

材料加工技术在低碳经济中的应用及发展

介绍了低碳经济形势下的薄坯铸轧、精密成形加工、闪光焊、无模成形、内高压成形以及其他先进成形加工技术,并展望了先进材料加工技术的发展趋势.     

三维打印技术在粉末材料快速成形中的研究现状评述

基于微喷射的三维打印快速成形技术,集CAD/CAM、数据处理、材料科学、微滴喷射和数控等多种技术于一体,是当前较成熟的快速成形技术之一。     

光电技术在中国深空探测中的应用

文章简单回顾了中国深空探测已走过的历程和正在进行的项目,展望了今后的发展;分析了深空探测器及其有效栽荷对光电技术的需求;重点对中国已发射的月球探测器"嫦娥一号"、"嫦娥二号"中应用的光电技术和获取的成果,正在研制的"嫦娥三号"探测器中所应用的光电技术,月球探测三期和今后可能发展的深空探测项目中预计采用的光电技术的研制工...     

基于DBF的波束功率控制及优化设计技术

低轨卫星系统近年来得到了广泛的关注和发展,卫星的轨道高度低,具有传输延时短、路径损耗小的特点,可以为小型化用户终端提供服务,但也存在单星覆盖区内路径差异大、卫星业务分配不均和工作动态范围大的问题。针对这些问题提出了一种适用于低轨卫星的波束优化设计方法,采用地球匹配波束设计,来实现更好的链路质量和覆盖效率。在下行波束设计中,通过唯相位加权优化设计方法,在满足波束增益要求及波束间C/I的基础上,实现了单波束功率由0%~100%的调整能力。针对低轨卫星移动通信业务随时间变化,导致发射组件输出功率长时间工作于回退状态的特点,提出了一种通过卫星业务处理器实现业务量变化与功放的最佳效率供电电压匹配调整的星上自适应功放功率随动技术,使得功放平均效率有效提高,减少了天线的平均功耗和热耗。     

一种基于数据驱动的装备信息系统软件快速设计框架

针对装备信息系统类软件特点,提出了一种基于数据驱动的软件设计框架.该框架采用数据土壤生成服务森林的核心设计思想,形成一套快速实现该类软件的设计模式,以及面向表单型、流程型、可视化型等常用业务类型开发的辅助工具,支撑软件的敏捷构建.针对装备数据的异构多源特性,与框架配合提出了面向装备信息的数据规范模型,支撑设计框架的通用化、智能化使用.该设计框架形成了一套面向装备信息类软件的研发指导思路,降低了软件的设计复杂度,提升了软件可靠性.     

锥柱形药柱环形槽内传热现象的数值研究

采用标准k-ε湍流模型和离散传递热辐射模型对不同来流雷诺数下锥柱形药柱前向环形槽内的流场与传热进行了数值研究。对槽内各表面与热气流之间的换热量进行了比较,并对努塞尔数沿环形槽各表面的变化进行了分析。结果表明来流雷诺数的大小影响环形槽内的旋涡数和旋涡区域的分布,进而影响槽内温度的分布,最终影响槽内装药表面与点火热气流之间的换热量。整个计算结果可为装药设计和分析推进剂的热解燃烧提供参考。     

Drag Reduction for an Airship with Proper Arrangement of Propellers

In this article, the flow field around an airship with propellers blowing is calculated on the basis of the Reynolds-averaged Navier-Stokes equations with SST turbulent models. Modeled each as an actuator disk, the propellers are arranged at different positions around the body of airship in the flow direction. The numerical results show that the blowing propellers produce open outer flows. They drive the separated vortexes off the body thus reducing the drag coefficients. The results also show that the position after leading sucking peak is the best place for a propeller to blow. When the propellers are positioned after sucking peak, the longer the area which the propellers work on, the more the profile drag coefficients can be reduced. If the working position of propeller moves from the sucking peak forward to the leading edge, the friction drag coefficient will increase. The bigger the diameter of the propellers and the stronger the pressure jump, the more the drag coefficient will be reduced. The results also reveal that for the design of circularly-positioned propellers with space intervals, the more drag coefficient reduction results, the smaller the space interval is specified.     

新一代战斗机机动作战决策与仿真

近距空战要求新一代战斗机具有较好的机动性能.根据基本的空战机动模式进行机动作战决策的建模,在综合飞行/火力/推进分布式计算机实时仿真系统中,运用大机动非线性鲁棒飞行控制律进行了典型的机动作战仿真.仿真结果表明,具有大机动性能的飞机在空战过程中显示出了很好的效益优势.      

Acceleration sensors based modal identification and active vibration control of flexible smart cantilever plate

Some flexible appendages of spacecrafts, such as solar panels, are cantilever plate structures. Thus, vibration problem is unavoidable when there is slewing maneuver or external disturbance excitation. Vibration of such cantilever plate structures includes coupled bending and torsional motion. Furthermore, the low amplitude vibration near the equilibrium point is very difficult to be quickly suppressed due to nonlinear factors of the hardware in the system, which is harmful to stability and attitude control accuracy. To solve these problems, acceleration sensor-based modal identification and active vibration control methods are presented for the first two bending and the first two torsional modes vibration of the cantilever plate. Optimal placements of three acceleration sensors and PZT patches actuators are performed to decouple the bending and torsional vibration of such cantilever plate for sensing and actuating, and identifications are achieved by experiments. A nonlinear control method is presented to suppress both high and low amplitude vibrations of flexible smart cantilever plate significantly. Experimental comparison researches are conducted by using acceleration proportional feedback and the presented nonlinear control algorithms. The experimental results demonstrate that the presented acceleration sensor-based methods can suppress the vibration of cantilever plate effectively.