He—Ne激光对鲱鱼DNA X射线衍射谱的影响

用He-Ne激光处理鲱鱼DNA，测试处理前后鲱鱼DNA的X射线衍射谱。结果显示处理前后鲱鱼DNA的X射线衍射谱发生了明显变化。为激光生物学效应的机理解释提供了实验依据。     

微磨具磨削钠钙玻璃的磨损机理实验研究

建立了微磨削过程中单颗磨粒的磨损数学模型,通过观测微磨具磨削前后直径变化、表面形貌变化及加工前后试件的表面质量,分析了微磨削过程中不同阶段磨粒的磨损情况.利用粒度500~#微磨具对钠钙玻璃进行单因素磨损实验,研究不同的磨削影响因素对微磨具磨损的影响规律.实验结果表明:随着磨削速度和进给速度增大,磨粒的磨损和破碎现象加剧;随着去除材料体积的增加,微磨具直径先是急剧减小,而后呈线性减小趋势;加工表面的粗糙度随着去除工件体积的增加总体呈下降趋势.研究结果为提高微磨具的使用寿命和加工性能提供了理论参考和实验依据.     

基于工控机控制方式的CO2激光雕刻机的研究

采用工控机控制方式,可以将激光器电源与控制线路实现空间上的集成一体化,控制系统在对光、机、电、气、液实施控制的同时,能自动识别和处理文字、图像,并自动生成控制指令代码。研究设计一台在高分子聚合物材料上用高能束激光束雕刻一般纸板的印刷模版专用的激光雕刻机。     

狭窄光学共振的飞秒脉冲激光稳频性研究

稳频的连续飞秒脉冲激光器以狭窄的光学共振作为水准基点，这种激光器具有稳定频率成分的宽带光谱和大功率的超短脉冲，能够有效的快速转变频率。在本文中可以看出这种双光子吸收共振使氢原子1S-2S能级之间跃迁的钛宝石激光器稳频飞秒脉冲振荡机制。     

New Voronoi Diagram Algorithm of Multiply-Connected Planar Areas in the Selective Laser Melting

This paper studies the practical generation of Voronoi diagrams for multiply-connected planar areas bounded by line segments. The core of the algorithm was calculating Voronoi polygon of every Voronoi object in planar areas independently. The main approach had two steps. The first step was calculating all relevant bisectors of every Voronoi object. The second was combining obtained bisectors into completed Voronoi polygons individually. All code was implemented in Visual C++ platform. The resulting code was extensively tested in real-world data and its practical running time grew only linearly. Three statistical CPU-consumption charts had been drawn with the Voronoi diagrams computation data, and compared with other published codes for computing Voronoi diagrams. The algorithm was applied to compute offsetting of slice area consisting of large-scale line segments for the selective laser melting (SLM) trajectory scanning technology which is a kind of rapid prototyping (RP). The experimental results of offsetting for slice area based on Voronoi diagrams show that the approach is effective and simple for polygon offsetting problems. The method is helpful to those offsetting work and can provide more effective offsetting solution.     

激光显示的概念与分析

激光显示相关的技术，是一种新兴的显示领域技术，其将激光光源作为主导，具有色域覆盖区域大、饱和度高和方便实现较高分辨和大屏幕影像等特点。文章介绍了激光显示的概念、特点、现存状态与发展趋势，讨论了激光显示的优势以及现阶段所存在的主要问题，分析了激光显示的发展前景，展示了激光显示作为新生一代显示相关技术的巨大潜力。     

光纤激光焊接镀锌板的工艺研究

为提高车身常用镀锌板的焊接质量和焊接效率,采用4000W光纤激光对厚度为0.8mm常用的镀锌板进行了焊接试验,分析了焊接速度,焊接气体和搭接间隙对焊接质量和焊接效率的影响.结果表明:焊接速度随着功率的增大而加快,,焊接间隙应该控制在0.07-0.1mm之间.     

一个用原子激光测量引力场微小变化的实验设计

利用原子激光良好的相干性,以及在引力场中会发生相位变化的特点,设计一个能够测量引力场微小变化的实验方案.     

大雨对飞机降落影响效应仿真研究与定量分析

为全面、定量分析大雨对飞机降落阶段的严重影响,选取波音737-300作为典型代表,首先对于降落阶段大雨造成的飞机性能损失进行了量级评估。然后重点针对降雨所导致的粗糙表面因素,利用CFD仿真方法和改进的湍流壁面函数,对于不同降雨强度下的波音737-300中段翼型气动性能进行了仿真模拟,给出了升阻力系数、失速攻角等定量结果,并与实验结果进行了对比。结果表明：大雨所导致的粗糙机翼表面将引起严重的气动性能损失。在降落阶段,对于波音737-300中段翼型而言,短时500毫米/小时降雨条件下,最大升力系数减少约28%,阻力系数平均增加达98.1%,失速攻角减小约5度。

Abstract：

Heavy rain might influence aerodynamic performance of an aircraft seriously, especially when it is landing. It requires an intensive investigation and quantitative analysis. Choosing Boeing 737-300 as the representative of aircraft, magnitude calculation for the penalty associated with severe rainfall was firstly made. Then the roughness factor was studied in detail using evolutional turbulence boundary function and CFD simulation tools. The aerodynamic character of Boeing 737-300 midspan airfoil was simulated under different rainfall environment. The quantitative results of lift-drag coefficients and stall angle were proposed and compared with experiment data. The results indicate that, the roughness surface caused by rainfall is most likely to cause significant aerodynamic penalties. For Boeing 737-300 midspan airfoil, when it is landing under severe rainfall of 500mm/hour over 30s periods, it could lead to the loss of maximum lift coefficient by about 28%, the decrease of stall angle by 5 and the increase of drag coefficient by 98.1%.