摘要
针对G波段分布作用速调管中关键零件隙缝腔零件的高精度设计要求开展微细加工技术研究。基于现有加工经验及加工设备条件,通过创新性的工艺设计、结合大量工艺试验探索,突破了微小尺寸、超高精度零件的精密加工技术,满足了毫米波及太赫兹电真空器件中关键零部件的制造需求,提升了高频段电真空器件制造技术水平。
Research on micro-machining technology is carried out to meet the high-precision design requirements of key crevice parts for G-band distributed klystrons.Based on existing processing experience and equipment conditions,through innovative process design and extensive process experiments,the precision machining technology of small-sized and ultra-high precision parts is developed,which can meet the manufacturing requirements of key parts for millimeter-wave and terahertz vacuum electronic devices,thus improving the manufacturing technology level of high frequency vacuum electronic devices.
作者
陈兵
张德水
于森
CHEN Bing;ZHANG De-shui;YU Sen(Beijing Vacuum Electronics Research Institute,Beijing 100015,China)
出处
《真空电子技术》
2024年第2期102-105,共4页
Vacuum Electronics
关键词
微细加工
加工工艺
隙缝腔
精密零件
Micro-machining
Machining process
Crevice cavity
Precision part