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铍反射镜成功地用于地面、海上、空中和宇宙飞行器的测量系统是用户和制造厂共同努力的结果,是一些科学技术领域(诸如,系统设计、光学、应力分析和最重要的技术—机械加工技术)的工程师和工人,在生产上的有效协作的结果。制造这种反射镜需要了解铍的特性,及其特殊的管理方法;同时要求制造厂了解用户提出的要求,而用户要知道制造厂特殊加工技术水平和潜力,以便使所制造的金属光学元件达到可行的设计要求。质量减轻了的铍光学元件(反射镜)平均密度约为0.6克/厘米~3。本文介绍了一块35.6×21.6×2.7厘米活动反射镜从初步设计至设计分析和制造的必要步骤,此反射镜特点是:用刚度足够大的材料铍制成,惯性小,重量轻(1公斤)。
The successful use of beryllium mirrors in ground, sea, airborne and space vehicle measurement systems is the result of joint efforts by users and manufacturers, and is an area of interest in science and technology such as systems design, optics, stress analysis and, most importantly, Processing technology) engineers and workers in the production of the results of effective collaboration. The manufacture of such mirrors requires knowledge of the properties of beryllium and its particular management methods, as well as requiring the manufacturer to understand the requirements of the user and the user to be aware of the level and potential of the manufacturer’s particular processing technology in order to achieve the metal optical components manufactured Feasible design requirements. The mass-reduced beryllium optical element (mirror) has an average density of about 0.6 g / cm3. This article presents the necessary steps from the initial design through to the design analysis and fabrication of a 35.6 x 21.6 x 2.7 cm moving reflector with the features of beryllium, a material of sufficient rigidity, low inertia, and light weight (1 kg) .