轮廓仪

  • 网络Profiler;Profilometer;profilometry;Surface Profilometer
轮廓仪轮廓仪
  1. 微表面轮廓仪中三维扫描系统的实现

    The Implement of Threedimensional Scanning System in Micro-surface Profilometry

  2. 基于相移干涉轮廓仪的相位去包裹算法

    Phase Unwrapping Algorithm Based On Phase Shift Interfering Profilometry

  3. MatLab在数字光学显微轮廓仪中的应用

    Application of MatLab in Digital Optical Profiler

  4. STM式三维nm级轮廓仪的研究

    An STM-Based 3-D Profiler with a Resolution of Nanometer Level

  5. X射线衍射仪、表面轮廓仪及纳米力学测试系统研究表明:ZrN/WN纳米多层膜的界面清晰,调制周期性良好;

    Magnetron sputtering system . The results of XRD , profiler and Nano indentation indicated that ZrN / WN possessed sharp interface and obvious bilayer period .

  6. 通过扫描电子显微镜(SEM)对镀层的表面形貌进行了观察,并用表面轮廓仪,对镀层的粗糙度进行了测量。

    The morphologies of the composite films were observed on a scanning electron microscopy ( SEM ), and roughness was tested on stylus profiler .

  7. STM式三维nm级轮廓仪的研究两级吸收式制冷机的优化分析

    An STM-Based 3-D Profiler with a Resolution of Nanometer Level The optimum performance characteristics of a two-stage absorption refrigerator

  8. 通过扫描电子显微镜(SEM)获得加工表面微观形貌图像和采用表面轮廓仪测得形貌统计参数。

    Surface micro topography photos are obtained by scanning electron microscope ( SEM ), and statistic parameters of topography are measured by surface profile instrument .

  9. 通过XRD,SEM和表面轮廓仪以及纳米力学测试系统,分析了调制周期和工作气压对多层膜生长结构和力学性能的影响。

    XRD , SEM , Nano indenter and profiler were employed to investigate the influences of modulation periods and ZrN ∶ WN thickness ratio on microstructure , mechanical properties of the coatings .

  10. 用表面轮廓仪实测分束镜面形精度达到nm量级,同步辐射反射率计测试表明,分束镜的反射率和透射率乘积约4%。

    The figure error of the beam splitter has reached the deep nanometer magnitude by using optical profiler and the product of reflectivity and transmission measured by synchrotron radiation is up to 4 % .

  11. 针对越来越多的纳米检测需求,研制了一套全新的原子力显微术轮廓仪(AFMProfiler)系统。

    Face to the increasing needs of nanometer profile detecting , we develop a totally new type of Atomic Force Microscopy Profiler ( AFM Profiler ) .

  12. 利用触针式轮廓仪对车削加工的表面轮廓进行了测量,分析了不同工艺参数对表面分形维数D和表面粗糙度参数aR的影响。

    In this paper , the turning surface profiles were measured with a contact stylus profiler , and the influences of the different machining conditions on the fractal dimension D were also analyzed .

  13. 通过STAR-1型表面轮廓仪对粗糙表面实际形貌的测定,分析得到了实际表面微凸体的高度分布和曲率分布,发现微凸体的高度分布并非高斯,而曲率分布则呈随机状态。

    Surface roughness parameters were measured using STAR-1 profilometer . The results showed that the distribution of the peak height was different from the profile height distribution and was not Gaussian , but the curvature distribution was random .

  14. 利用XPS测量了钛膜的物质组成,证明XPS测量的钛膜的厚度和通过台式探针轮廓仪的测量结果外推出来的钛膜厚度非常一致。

    The compositions of the film were characterized with XPS and the thickness of the film obtained from XPS result was consistent well with the deduced result by bench-top stylus profiler .

  15. 本文采用准分子激光加工方法,选择不同的工艺参数对Al2O3陶瓷材料试件进行加工,通过表面轮廓仪测量表面微观形貌,并计算其表面轮廓高度均方根值Rq。

    Excimer laser texturing was performed on the surfaces of Al_2O_3 ceramic under a group of processing parameters , in order to investigate the different processing parameters in relationships with the surface topography .

  16. 在ICF靶参数测量中,用接触X射线显微辐射照相法记录微球X射线图像,采用精密表面轮廓仪处理微球X射线图像,直接测量了单层微球壁厚。

    The X ray radiography technique for measurement of ICF targets . Record film images of microspheres using contact microradiography . Analysis the X ray images using surface profiler , direct measuring the wall thickness of single wall microsphere .

  17. 在数字光学显微轮廓仪中采用MatLab作为测量结果的图形显示手段,解决了Visualc/C++与MatLab之间不同语言混合编程的接口问题,给出了用MatLab进行图形编程的实例。

    Software MatLab is used to display measurement results in digital optical profiler . Different kinds of computer languages , such as Visual C / C + + and MatLab , are combined in programming . Samples of graphic programming with MatLab are given .

  18. 根据TaylorHobson轮廓仪测量试样表面形貌三维初始表面高度,尝试用元胞自动机方法进行了摩擦表面温度分布模拟计算,并结合磨损表面形貌分析探讨摩擦热对UHMWPE磨损机理的影响。

    Peak values from Taylor Hobson 's 3D measurement of surface topography of UHMWPE before testing were used for forming cellular automaton grid to simulate and calculate distribution of friction surface temperature .

  19. 采用多功能SRV试验机考察了超细高岭土在菜籽油中的高温摩擦学性能,并利用表面轮廓仪对试块的磨损表面形貌进行观察。

    High temperature tribological behaviors of superfine kaolin in colza oil were tested with SRV machine , and wear surface was observed by surface profiler .

  20. 利用光学轮廓仪和原子力显微镜(AFM)分别测量了上述Ag膜和ZrO2薄膜的表面均方根粗糙度,并与总积分散射仪所得的粗糙度进行了比较。

    Optical profilometer and atomic force microscopy ( AFM ) are used to obtain the surface RMS roughness of Ag layers and ZrO_2 films , respectively , which are compared with the roughness obtained by the scattering instrument .

  21. 利用FormTalysurf轮廓仪和高分辨率激光轮廓仪对经古典抛光法加工的基片进行检测,其表面波度的波幅为5~30nm,波距为100~150μm。

    A substrate prepared by classical optical polishing is checked by a Form Talysurf and a high resolution laser profilometer . The height and spacing are respectively 5 ~ 30nm and 100 ~ 150 μ m.

  22. 以长程轮廓仪为基础,结合实验室现有条件,研制出一台WolterI型反射镜面形检测装置。

    A prototype of surface profile measuring device , based on the principle of Long Trace Profiler , is designed and established to measure the surface profile of Wolter type I mirror .

  23. 我们在自行研制的DOP-2000型数字光学轮廓仪上,运用相移干涉术对一多刻线样板进行了测量,实验结果进一步表明,本文的加权迭代法是一种非常有效和实用的方法。

    A sample of multiline is measured using phase-stepping interferometry in DOP-2000 digital optical profiler developed by us . Further experimental results indicate that the method is very effective and practical .

  24. 电动轮廓仪相位校正滤波的一种新方法

    A new method of the phase corrected filters in electric profilometers

  25. 采用表面轮廓仪和纳米压痕仪分别测量膜的厚度和硬度。

    Thickness and hardness were determined by Profile Tester and Nanotester .

  26. 2D-SROP-1型光学轮廓仪中调制误差的分析与抑制

    Analysis and Decreasing of the Micro-displacement Modulation Error in Optical Profilometer

  27. 炉温测试仪的计量与校准光针式轮廓仪的研制

    Measurement and Calibration of MICRO PROFILER Development of Optical Stylus Profilometer

  28. 轮廓仪的多参数微机测量系统

    The system controlled by microcomputer measuring most parameters with the contourgraph

  29. 用于超光滑表面无损检测的光学轮廓仪

    An Optical Profiler Used for Nondestructive Testing of Ultra Smooth Surface

  30. 用轮廓仪及其定位装置测量磨损

    To Calculate wear Amount with a Profilometer and Its Relocation Device