本公司拥有全套光学加工及机加工成套设备。
Our company have the complete set's optics process and machine process complete equipment.
这对光学加工和胶合技术提出了严峻的挑战。
It is a real challenge to the optical manufacturing and cementing technology for this integration element.
因此在光学加工和应用中疵病的检测越来越受到重视。
So it's becoming more and more important to detect the defects in optical manufacture and application.
然而长期以来,非球面的应用一直受到光学加工和检测技术的限制。
However, its application has been limited by optical manufacture and testing technology for a long time.
为实现纳米量级的高精度或超高精度光学加工,IBF是最好的方法之一。
To realize high or super-high precision optical fabrication with nanometer accuracy, IBF technology is one of the best solutions.
相对于传统光学手工加工,确定性光学加工大幅提高了光学加工的精度和效率。
Deterministic optical machining method improves the accuracy and the efficiency of optical machining compared with conventional optical manual fabrication.
掌握了碳化硅质反射镜的数控光学加工技术对于我国空间相机的制造具有重要意义。
So it's very important for the manufacture of space-based optical system to master the computer controlled optical surfacing (CCOS) technology of SiC mirror.
近几年来,通过开发计算机数控光学加工机械和新的制造技术,已经取得了大的进展。
In the recent years big progression has been made by developments of CNC controlled optical machines and new manufacturing technologies.
但是,由于碳化硅材料所具有高硬度、高弹性模量等性质,使碳化硅质反射镜的光学加工难度很大。
But the optical surfacing on SiC mirrors is extremely difficult because of its high hardness and elastic modulus.
JB-5C粗糙度轮廓仪广泛应用于机械加工、汽车、轴承、机床、摸具、精密五金、光学加工等行业。
It is widely used in metrological departments of industries of autos, tools, bearings, Patterns, and optics for measuring profile and roughness of precision parts.
钟表玻璃及类似玻璃、视力矫正或非视力矫正眼睛用玻璃,呈弧面、弯曲、凹形或类似形状但未经光学加工的;
Clock or watch glasses and similar glasses, glasses for non-corrective or corrective spectacles, curved, bent, hollowed or the like, not optically worked;
介绍了磁流变抛光技术在光学加工中的应用,分析了其中应重点解决的问题,并对磁流变抛光技术的发展前景进行了展望。
MRF in optical machining was presented and the main problems in MRF were analyzed. The studies of magnetorheological finishing and its application of industries were reviewed.
计算机数控能动盘光学加工技术具有高加工效率和抑制中高频能力,而小磨头光学加工技术则有很强的局部误差修正能力。
The active-lap is able to remove the middle and high frequency errors by smoothing, and the small tool is adapt for removal of the local error.
通过误差矩阵和模具的工作特性函数反求输入控制量是加工高精度的自由曲面光学镜所面临的难题。
It is a difficult problem to solve the inputted data when the matrix of error data and the working characteristics of the tool are known in precision machining.
气囊式抛光技术是一种新颖的先进抛光工艺方法,能实现光学表面的确定性加工。
Bonnet tool polishing is a novel and advanced polishing method, which can realize quantitative removing of optical surface.
综述了二元光学元件的常用制作工艺技术,包括台阶刻蚀法、薄膜沉积法、直接写入法、准分子激光加工法和灰阶掩模法。
The common fabrication technologies of binary optical elements were expatiated, including etching, thin-film deposition, direct writing, excimer laser projection and gray-scale masks.
为了保证用轨迹成型法加工光学零件的面形精度,对精密磨削机床影响工件面形误差的因素进行了理论分析。
In order to guarantee surface precision of using locus shaping method machining optical parts, the factors of fine grinding machine which affects surface error of part is theoretically analysed.
对V形琢型宝石的加工工艺、光学效应、视觉效果及市场前景进行了探讨。
The processing technology, optical effect, visual effect and market prospect of gemstone with V-shaped cut are discussed.
阐述了将红外成像系统应用于潜望镜时,在波长选择、光学系统设计、光学零件加工等方面应考虑的问题。
The requirements for such a system are discussed which include the selection of wavelength, optical system design and component processing.
本文主要阐述了光学零件镜面磨削加工的机床、超微粒金刚石砂轮及其修整技术。
This paper introduces the grinding machine used on the processing of mirror surface of optical parts and the superfine diamond grinding wheel and its dressing technique.
非球面光学零件加工是国内外公认的难题。
Aspheric optical part processing is an acknowledged difficult problem around the world.
针对精细加工设计精细切割头及光学镜片,确保精细加工效果。
Precision laser head and optical lens are adopted for precision processing effects.
结合先进光学技术与控制技术,可符合各样之加工需求。
Unifies the advanced Optical Technology and the control technology, May conform to all kinds processing demand.
顶焦度计又称对光机、查片机,可用来测量球光镜镜度、散光镜镜度、棱镜镜度以及散光轴线和光学中心点等,是眼镜片冷加工中必不可少的检测仪器。
The lensometers is also called measural lens dioptre instrument, to measure spherical lens dioptre, cylindric lens dioptre and axis, prism dioptre, and lens optical center etc.
为了解决非球面光学零件加工难、成本高的问题,现已研究出的加工方法有几十种。
In order to solve it, there are tens of kind methods developed to process aspheric optic parts at present.
应用超精密加工技术解决了激光核聚变光学元件的大批量加工问题。
The problems of batch manufacturing optical components in laser nuclear fusion are solved by applying the technology of the ultra precision machining.
应用超精密加工技术解决了激光核聚变光学元件的大批量加工问题。
The problems of batch manufacturing optical components in laser nuclear fusion are solved by applying the technology of the ultra precision machining.
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