扫描曲面的设计方法及应用

本文通过截线扫描法构造Ｂ－Ｓｐｌｉｎｅ曲面，介绍了扫描面的特性，并结合具体实例说明该方法在造型设计中的应用价值。     

Effects of Atomic Oxygen Irradiation on Transparent Conductive Oxide Thin Films

作为一种功能薄膜,透明导电氧化物(TCO)薄膜在飞行器的抗原子氧(AO)涂层和太阳能电池领域有着巨大的应用价值。ZnO:Al(ZAO)和In2O3:Sn(ITO)薄膜是目前研究和应用最广泛的TCO。本文对ITO薄膜和ZAO薄膜进行了不同通量的AO辐照。通过对辐照前后样品的X射线衍射、扫描电镜及霍耳效应的表征及测试,研究了AO辐照对这两种TCO薄膜的结构、性能及电学特性的影响。研究表明AO辐照对ZAO薄膜表面有明显的侵蚀作用,但对其结构和导电性能没有明显影响。对于ITO薄膜,随着AO通量的增大,其载流子浓度逐渐下降从而导致了电阻率的提高,电阻率的最大变化达到了21.7%。     

一种非线性规划的求解方法与燃气发生器的设计

阐述了一种新的非线性规划的求解方法。即对每个参变量在其可能变化区间内，按照特定的步长依次代入约束方程来观察是否满足约束条件，从而求得若干组可行解。变量变化的步长通过非线性方程组各个方程在近似结点的全微分的分析获得。步长的确定是本方法的关键。文中并示范性列举了本方法在燃气发生器设计中的作用。     

STM针尖-样品相互作用实验研究

研究了大气状态下应用扫描隧道显微镜(STM)对金薄膜和单晶硅材料进行了纳米级电场加工实验。分析了针尖和样品表面的相互作用机理,以及隧道间隙、隧道电流反馈、脉冲个数等因素对纳米点结构的加工产生的影响,并探讨了针尖磨损对纳米结构一致性的影响。     

Plasma Niobium Surface Alloying of Pure Titanium and its Oxidation at 900 ℃

A niobium-modified layer on pure titanium surface was obtained by means of double glow plasma surface alloying technique. The modified layer was uniform, continuous, compact and well adhered to the substrate. The niobium composition in the modified layer decreased gradually from the surface to the substrate. The oxidation behavior of the niobium-modified layer was investigated and compared with the untreated surface at 900 ℃ for 100 h. Characterization of the layers was performed using X-ray diffraction and scanning electron microscope, respectively. The test results show that the oxidation behavior of pure titanium was improved by niobium alloying process. Niobium has a positive influence on the oxidation resistance.     

汽车复合曲面斜截面外形计算方法的研究

提出了一种用于计算汽车车身复合曲面斜截面外形的有效算法。根据实际问题的情况，提出了沿复合曲面三条边界扫描找始点及用自适应步长跟踪求迹的算法。该算法简化了扫描过程，缩短了计算时间，并且所得到的交点记录了坐标值和相应曲面片的参数值。测试显示这种算法简单实用、快速有效，在车身复杂曲面截面质量分析和自由曲面数控加工刀位轨迹计算等方面具有实际应用价值。     

大气状态下SPM纳米加工系统的开发

商业化和大多数自制SPM开发和研制的目的主要是获得表面的信息,要想使它适合扫描探针加工的要求,必须对其进行一些必要的改进。本文讨论在DI公司多功能SPM基础上开发的纳米加工系统。     

Improvement in the GERB short wave flux estimations over snow covered surfaces

Because space-borne radiometers do not measure the Earth’s outgoing fluxes directly, angular distribution models (ADMs) are required to relate actual radiance measurement to flux at given solar angle, satellite-viewing geometries, surface, and atmospheric conditions. The conversion of one footprint broad-band radiance into the corresponding flux requires therefore one to first characterize each footprint in terms of surface type and cloud cover properties to properly select the adequate ADM.

A snow (and sea-ice) retrieval technique based on spectral measurements from the Spinning Enhanced Visible and Infrared Imager (SEVIRI) on board Meteosat 8 is presented. It has been developed to improve the scene identification and thus the ADM selection in the near-real time processing of the Geostationary Earth Radiation Budget (GERB) data at the Royal Meteorological Institute of Belgium. The improvement in the GERB short wave flux estimations over snow covered scene types resulting from angular conversion using dedicated snow ADMs (e.g., empirical snow ADMs and/or pre-computed theoretical snow ADM) instead of empirical snow-free ADMs is discussed.     

一种新颖的ICT扫描方式及其FBP重构算法

计算机层析成像检测的突出问题是获取一幅图像的时间太长.为了缩短较大尺寸构件层析成像检测的二代(TR,Transverse Rotation)扫描时间,讨论了一种准三代(RR,Rotation and Rotation)扫描的概念,推导了它的滤波反投影算法. 计算机模拟结果证明了该算法的正确性. 分析表明,在同样检测条件下,它的扫描速度将比TR提高3倍以上.      

无源雷达波束扫描时差定位方法

运用波束扫描时差定位原理,提出了四站雷达无源定位的模型并对该方法的定位精度进行了分析,同时对已有的定位算法进行了研究并提出了改进措施,最后给出了具体条件下的仿真分析。