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.
超精密机械加工技术作为微光学元件的一种制造方法,具有很多其他传统方法所不具有的优点。
Precision machining, as a manufacturing technique of micro - optical components, has many advantages which are difficult or even impossible for other traditional methods.
通过对光学干涉系统结构设计和元件参数选择,最大限度地优化了干涉条纹的可见度,并设计出零背景光强标准硅球直径精密测量系统。
On the basis of structure design of optical system and parameter option of optical components, the visibility of interference fringe with zero background intensity is optimized.
用于储存光电材料与元件,珍贵字画及重要档案,光学仪器,高级镜头,摄影器材等各种精密测量仪器的恒湿储存。
Used for storing about photoelectric material, rare handwriting & painting, and important files, optical instrument, supper apparatus, etc. sorts of precision instruments.
针对超精密光滑光学元件加工过程中容易出现的粗糙度较大和表面疵病较多的现象,对传统抛光机理和抛光过程中抛光粉的主要参量对抛光质量的影响进行了研究。
In view of the phenomena that the easy appearance of serious roughness and surface defects, the polishing mechanism and the influence of the main parameters on the polishing quality are researched.
型号超精密单点金刚石车床,用于高精度模具以及红外光学元件等方面的加工;
250UPL / 450UPLUltra-precision Diamond Turning Lathe, used for processing high precision moldsand infrared optical elements etc.
型号超精密单点金刚石车床,用于高精度模具以及红外光学元件等方面的加工;
250UPL / 450UPLUltra-precision Diamond Turning Lathe, used for processing high precision moldsand infrared optical elements etc.
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