日用电器
日用電器
일용전기
ELECTRICAL APPLIANCES
2014年
11期
12-14
,共3页
磁控管%阴极碳化%电子发射
磁控管%陰極碳化%電子髮射
자공관%음겁탄화%전자발사
magnetron%cathode carbonization%electron emission
本文详细介绍了磁控管阴极碳化工艺,分析了碳化工艺的好坏对磁控管电子发射的影响;根据分析结果,对碳化工艺进行了改进,并对改进后新工艺的效果进行了验证。结果表明,工艺改进前碳化率波动范围相对较大,在9.50%-15.97%之间,工艺改进后为10.0%-12.3%,波动范围小,碳化率更稳定,一致性较好。
本文詳細介紹瞭磁控管陰極碳化工藝,分析瞭碳化工藝的好壞對磁控管電子髮射的影響;根據分析結果,對碳化工藝進行瞭改進,併對改進後新工藝的效果進行瞭驗證。結果錶明,工藝改進前碳化率波動範圍相對較大,在9.50%-15.97%之間,工藝改進後為10.0%-12.3%,波動範圍小,碳化率更穩定,一緻性較好。
본문상세개소료자공관음겁탄화공예,분석료탄화공예적호배대자공관전자발사적영향;근거분석결과,대탄화공예진행료개진,병대개진후신공예적효과진행료험증。결과표명,공예개진전탄화솔파동범위상대교대,재9.50%-15.97%지간,공예개진후위10.0%-12.3%,파동범위소,탄화솔경은정,일치성교호。
This paper introduces the carbonization process of magnetron;and analyzes the influence of the advantages and disadvantages of carbonization process on the magnetron electron emission. According to the analysis results, the carbonization process was improved and verified by the new process. The results show that before improvement, the fluctuation range of ratio of carbonization is relatively large;it is between 9.50%-15.97%;and after improvement, it is between 10.0%-12.3%;the fluctuation range is small, and the carbonization is more stable and consistent.
