航天制造技术
航天製造技術
항천제조기술
HANGTIAN ZHIXAO JI SHU
2013年
4期
25-27
,共3页
宋振坤%李凤娟%王德志%熊浩%高嘉
宋振坤%李鳳娟%王德誌%熊浩%高嘉
송진곤%리봉연%왕덕지%웅호%고가
动环%高精度%平面度%粗糙度%精密研磨
動環%高精度%平麵度%粗糙度%精密研磨
동배%고정도%평면도%조조도%정밀연마
rotating ring%high-precision%flatness%roughness%precise grinding
重点介绍了高精度平面零件动环的结构特点,分析了加工难点,提出了问题解决的具体思路;阐述了保证其精度的加工方法、原理。通过研磨余量、磨料选择及操作过程几个方面进行了研究总结,同时提高了零件的加工合格率。
重點介紹瞭高精度平麵零件動環的結構特點,分析瞭加工難點,提齣瞭問題解決的具體思路;闡述瞭保證其精度的加工方法、原理。通過研磨餘量、磨料選擇及操作過程幾箇方麵進行瞭研究總結,同時提高瞭零件的加工閤格率。
중점개소료고정도평면령건동배적결구특점,분석료가공난점,제출료문제해결적구체사로;천술료보증기정도적가공방법、원리。통과연마여량、마료선택급조작과정궤개방면진행료연구총결,동시제고료령건적가공합격솔。
Aimed at the case that the precision of high-precision plane parts rotating ring easily goes beyond tolerance after grinded, the selection tests of abrasive and allowance of grind were analyzed by the test method to finalize the grinding parameters. The ultra-poor phenomenon was successfully resolved. The stability of machined parts, adopting these grinding parameters, was proved by a large number of flight tests.
