主反射镜

在已确定使用Grubb十八点底支撑结构后，分析了使用粘接剂的侧支撑结构主反射镜变形与应力情况。

When the Grubb eighteen points bottom support structure was adopted , the deformation and stress of the primary mirror caused by the lateral support structure with the modified epoxy resin adhesive were calculated .

大口径长焦距平行光管主反射镜支撑与调整机构的研究

Supporting and adjusting for collimator primary mirror with large-aperture and long - focal length

研制某卡塞格林光学系统的关键技术之一是通光口径超过1000mm的轻质抛物面主反射镜。

Manufacture of big aperture lightweight paraboloidal mirror is one of the key techniques for the research of the Cassegrain optical system .

报告了φ354mm轻质主反射镜的设计和制作工艺方法。

The design , fabrication and evaluation method of a primary lightweight reflecting mirror of φ 354mm have been introduced .

空间相机主反射镜的力学计算

A Kind of Mechanical Calculation for a Space Camera Main Mirror

球面主反射镜基体形状选择

Selection of Substratum Shapes of Spherical Primary Reflection Mirrors

但可能最有趣的部分是其6.5米口径的主反射镜，它由轻质铍制成，镀以黄金，并被分割为18个相互连接的部分。

But perhaps its most interesting part is the six-point-five meter wide mirror .

经理论和有限元分析，此方案主反射镜的变形量最小。

After the plan is analyzed , the distortion of the primary is minimum .

非球面主反射镜检测用支撑结构的优化设计

Optimizing Optics Support Structure in Testing Primary Mirror

空间光学遥感器主反射镜轻量化及支撑设计

Design and analysis of lightweight structure and support for primary mirror of space optic remote sensor

介绍了主反射镜的一种轻量化结构设计；

A kind of structure design of lightweight of primary mirror is introduced in this paper .

主反射镜的一种轻量化设计

Design of lightweight of primary mirror

随着空间光学技术的发展，人们对空间相机主反射镜提出了口径更大的要求。

With the development of space optical technology , there exits higher demands for the larger-diameter primary mirror for the space usage .

刚开始时主反射镜的瑕疵造成影像模糊；1993年另一次太空任务修正此瑕疵及其它问题。

A defect in the primary mirror initially caused it to produce fuzzy images ; in 1993 another shuttle mission corrected this and other problems .

它过去只用在抛物面反射望远镜上，这种镜子只用主反射镜就能成像。你就立刻抓起望远镜或照像机来。

It used to apply only to reflecting telescopes in which the primary mirror was a paraboloid , and thus capable of forming an image all by itself . You grab your binoculars or your camera at once .