| 1. | Elimination method of adjustment error in measurement of aspheric optical elements
非球面光学零件测量中调整误差消除方法 |
| 2. | A method and its programming for calculating the light path of aspheric optical system
非球面光学系统的光路计算方法与编程实现 |
| 3. | The surface testing of aspheric and optical part is especially difficult , which is big scale and high precision
尤其是大型高精度的非球面光学零件,面形检测难度更大。 |
| 4. | A new optical fabrication technology of bonnet tool polishing is introduced , which could produce high precision aspheric surface
摘要介绍一种新型的非球面光学零件抛光方法气囊抛光,这种方法可以得到高质量的光学表面。 |
| 5. | Because of the demand of aspherical lenses , itrc combines optical , mechanical and electrical technology to develop an aspherics polishing system using negative - shape polishing method
在非球面光学镜片需求增加的今日,仪科中心集成光、机、电技术,发展出应用负形抛光法之非球面抛光系统。 |
| 6. | Because of the demand of aspherical lenses , itrc combines optical , mechanical and electrical technology to develop an aspherics polishing system using negative - shape polishing method
在非球面光学镜片需求增加的今日,仪科中心整合光、机、电技术,发展出应用负形抛光法之非球面抛光系统。 |
| 7. | The precision of polishing of optics depends on the precision of grind . the general procedure of processing aspheric optics is coarse grinding , fine grinding , polishing and measuring
光学元件的抛光精度取决于精磨精度,非球面光学元件的加工工序简略的可分为粗磨成形、精磨成形、抛光、检测。 |
| 8. | Aspheric optics with advantages of superior imaging characteristic and compact configuration are more and more widely used in precise optical instruments , that requires the development of mass production of aspheric
非球面光学元件以其优越的光学性能、紧凑的结构正越来越多的应用于精密光学仪器中,这就要求非球面制造过程能够实现快速批量生产。 |
| 9. | Aiming at the requirement of aspheric optical parts and the present state of their testing , it will have an important practical value to develop an equipment that will be easy to operate , commonly used and will have high testing precision
针对目前对非球面光学零件的需求和非球面检测技术的现状,探索一种操作简便、通用性强、检测精度高的检测仪器具有重要的实用价值。 |
| 10. | Therefore , it has been the imperative development trends that , according to the domestic existing technology level , breaking through the existing craft , exploiting new aspheric optical parts processing method with high precision and developing the relevant ultra - precision machine
因此,根据我国现有的技术水平,突破现有的工艺技术,开发新的高精度的非球面光学零件的加工方法,以及研制相应的超精密加工设备已成为势在必行的发展趋势。 |
