激光模式对典型金属材料烧蚀影响的数值模拟研究

利用自编的LAMP程序计算了铝、镁和钛等3种金属材料的激光烧蚀温度场,重点分析了激光作用模式对烧蚀效果的影响,并考虑了材料表面反射系数随温度变化的情况。计算结果表明,对于同样的金属靶,当光斑和激光平均功率相同时,重频频率小、占空比小的激光烧蚀贯穿靶所需的时间最少。     

冷热循环对M40碳纤维/氰酸酯复合材料影响的试验研究

对M40碳纤维/氰酸酯复合材料进行了冷热循环试验,分别测试了经不同次数冷热循环后材料的质损率、弯曲强度和层剪强度,并通过扫描电镜对试样断口形貌进行了观察。结果表明:随着冷热循环次数的增加,样品有少量的质量损失;其剪切性能先增加后略有降低;碳纤维与树脂基体之间的界面结合状态良好。     

矩形截面型材拉弯成形

针对铝合金矩形中空截面挤压型材进行了不同预拉和补拉的拉弯成形试验研究,获取了预拉和补拉对成形精度的影响规律.截面畸变是影响成形精度最主要的因素,由弯曲过程中的径向压力引起.试验表明,型材靠模弯曲即发生截面畸变,主要表现为上腹板的塌陷,沿型材长度方向截面畸变量不同,最大畸变量并不位于型材中间对称截面处;增大预拉和补拉,截面畸变增大.弯曲卸载回弹是影响零件贴模度的主要因素,其大小受多种因素影响,规律复杂.增大预拉和补拉,回弹减小;当预拉和补拉增大到一定值时,增大拉伸量减小回弹的效果不再明显.     

对激光近炸引信的无源干扰技术研究

随着激光近炸引信技术的发展,其在抗外界干扰方面的性能得到了显著提高。在了解激光近炸引信抗干扰性能的基础上,研究了对其进行无源干扰的原理及方式。研究表明：虽然激光近炸引信的抗干扰性能得到了提高,但烟幕、气溶胶和水幕等对其干扰依然有效。     

激光增材制造过程数值仿真技术综述

数值仿真是研究激光增材制造过程中各类物理现象、揭示零件缺陷形成机理、优化增材制造工艺参数的重要手段,该领域学者针对增材制造过程中的热分析、金属粉末颗粒性质分析、微观结构分析、质量缺陷成因分析等方面,开展了大量研究,提出了相应的数学模型和方法。激光增材制造过程的数值仿真是一个在空间和时间上均跨越多个尺度的复杂问题,微观、介观、宏观尺度下数值仿真所关注的对象和所使用的方法各不相同;多数研究聚焦于某一尺度下的过程仿真,另一部分研究则基于不同模型的数据关系建立模型间的耦合关系,实现热-相、热-力的综合分析。对现阶段激光增材制造数值仿真领域的主要技术进行了综述,在梳理数值仿真基本流程的基础上,对其中涉及的热源模型,粉末模型,力学模型以及微观结构模型进行了介绍,讨论了其特点和适用性;结合相关技术领域的发展,探讨了激光增材制造数值仿真技术的发展方向,旨在为本领域的技术研究与发展提供参考。     

Application of focused laser differential interferometer to hypersonic boundary-layer instability study

Accurate prediction of hypersonic boundary-layer transition plays an important role in thermal protection system design of hypersonic vehicles. Restricted by the capability of spatial diagnostics for hypersonic boundary-layer study, quite a lot of problems of hypersonic boundary-layer transition, such as nonlinearity and receptivity, remain outstanding. This work reports the application of focused laser differential interferometer to instability wave development across hypersonic boundary-layer on a flared cone model. To begin with, the focused laser differential interferometer is designed and set up in a Mach number 6 hypersonic quiet wind tunnel with the focal point in the laminar boundary-layer of a 5 degree half-angle flared cone model. Afterwards, instability experiments are carried out by traversing the focal point throughout the hypersonic boundary-layer and the density fluctuation along the boundary-layer profile is measured and analyzed. The results show that three types of instability waves ranging from 10 kHz to over 1 MHz are co-existing in the hypersonic boundary-layer, indicating the powerful capability of focused laser differential interferometer in dynamic response resolution for instability wave study in hypersonic flow regime; furthermore, quantitative analyses including spectra and bicoherence analysis of instability waves throughout the hypersonic boundary-layer for both cold and heated cone models are performed.     

激光无线能量传输接收装置研究

通过对激光无线能量传输过程中影响接收装置效率的因素进行分析,结合光电池最优布局和最大功率跟踪技术,提出一种高转换效率的激光无线能量传输接收装置,实现接收装置转换效率不受负载阻抗的影响,研制出转换效率高达29.6%的激光无线能量接收装置。     

利用TDLAS技术评估火箭基组合循环发动机试验性能

针对宽范围工作的火箭基组合循环（RBCC）发动机推力、比冲和燃烧效率等性能难以通过关键参数的实时测量直接计算的问题,提出利用可调谐二极管激光器吸收光谱（TDLAS）技术实现发动机燃气温度、H2O组分浓度和速度多参数同时实时在线非接触式激光光谱测量方法,搭建用于RBCC地面试验性能分析的时分复用-扫描波长TDLAS系统。通过试验获得的(7444.352+7444.371)/7185.597cm -1 谱线附近吸收光谱,从而得到燃气温度、H2O组分浓度和速度参数,并结合数值模拟方法确定的流场参数纵向分布,实现基于关键参数在线测量的发动机性能直接计算。该方法有助于评判燃烧组织和结构改变对发动机性能的影响。     

An improved procedure for manufacture of 3D tubes with springback concerned in flexible bending process

Three dimensional (3D) tubes, which possess the characteristics of space saving, lightweight and high strength, are widely used in many high-end industries such as aviation, aerospace, automobile and shipbuilding. However, when manufacturing a 3D tube in flexible bending process, springback is a big obstacle for improving the forming quality. In this paper, a new comprehensive strategy for springback control of 3D tubes is proposed. The strategy can be described as follows: (1) define the desired shape and manufacture shape; (2) optimize the manufacture shape using two tooling design methods (e.g. DA (displacement adjustment) method and B&T (bending and twisting) method presented in this paper); (3) make a discretization of the manufacture shape to acquire the optimized forming parameters. Additionally, experiment is implemented to validate the effectiveness of the new strategy. Results show that forming parameters acquired by the new strategy are partially effective. The new strategy also demonstrates that, during 3D tubes forming, the deviation caused by over-bent elements can be counteracted by the deficient-bent elements. This principle is helpful to reduce the difficulty of parameter determination in future.     

Improving seeking precision by utilizing ghost imaging in a semi-active quadrant detection seeker

Conventional semi-active laser guidance takes advantage of the laser designator to illuminate the stable and uniform laser spot on target precisely. The seeker collects the reflected light by a quadrant detector and outputs the relative position information to guide the missile to the illuminating laser spot. However, the designation and guidance accuracy could be jeopardized by the randomly drifting of laser spot caused by the instability of designation platform and air turbulence. In this work, ghost imaging technique is adapted to a quadrant detector semi-active seeker by utilizing structured illumination on the target. With a series of structured illumination masks, the signals from the quadrant detector are multiplexed to perform calculation of the target relative position as well as image reconstruction of the illuminated area simultaneously. Automatic target recognition methods could be further applied to the reconstructed image to calculate the designating error and correct the guidance. The results of simulation and experiment demonstrate that the proposed method could improve the guidance accuracy in many circumstances which would lead to attacking deviation if conventional semi-active laser guidance is used.