金刚石与磨料磨具工程
金剛石與磨料磨具工程
금강석여마료마구공정
Diamond & Abrasives Engineering
2015年
5期
20-24
,共5页
王小安%汪建华%吕琳%翁俊
王小安%汪建華%呂琳%翁俊
왕소안%왕건화%려림%옹준
微波等离子体%化学气相沉积%超纳米金刚石%氩气
微波等離子體%化學氣相沉積%超納米金剛石%氬氣
미파등리자체%화학기상침적%초납미금강석%아기
microwave plasma%chemical vapor deposition%ultranano-diamond%Ar
为研究 Ar 浓度对金刚石膜的质量的影响,采用微波等离子体化学气相沉积法,以 Ar/H2/CH4为气源,通过改变反应气源中的 Ar 流量,在 P 型 Si(100)基片上分别沉积了不同晶粒尺寸的金刚石膜(微米、纳米以及超纳米)。采用扫描电子显微镜、拉曼光谱仪、X 射线衍射仪、往复式摩擦磨损试验机等设备对金刚石薄膜的表面形貌、晶粒尺寸、薄膜质量、残余应力以及微观硬度等特性进行了分析。结果表明:随着 Ar 流量的增加,金刚石膜晶粒尺寸减小;由 G 峰漂移引起的拉应力先减小后增大;薄膜中非金刚石含量增加,硬度下降。
為研究 Ar 濃度對金剛石膜的質量的影響,採用微波等離子體化學氣相沉積法,以 Ar/H2/CH4為氣源,通過改變反應氣源中的 Ar 流量,在 P 型 Si(100)基片上分彆沉積瞭不同晶粒呎吋的金剛石膜(微米、納米以及超納米)。採用掃描電子顯微鏡、拉曼光譜儀、X 射線衍射儀、往複式摩抆磨損試驗機等設備對金剛石薄膜的錶麵形貌、晶粒呎吋、薄膜質量、殘餘應力以及微觀硬度等特性進行瞭分析。結果錶明:隨著 Ar 流量的增加,金剛石膜晶粒呎吋減小;由 G 峰漂移引起的拉應力先減小後增大;薄膜中非金剛石含量增加,硬度下降。
위연구 Ar 농도대금강석막적질량적영향,채용미파등리자체화학기상침적법,이 Ar/H2/CH4위기원,통과개변반응기원중적 Ar 류량,재 P 형 Si(100)기편상분별침적료불동정립척촌적금강석막(미미、납미이급초납미)。채용소묘전자현미경、랍만광보의、X 사선연사의、왕복식마찰마손시험궤등설비대금강석박막적표면형모、정립척촌、박막질량、잔여응력이급미관경도등특성진행료분석。결과표명:수착 Ar 류량적증가,금강석막정립척촌감소;유 G 봉표이인기적랍응력선감소후증대;박막중비금강석함량증가,경도하강。
Micro‐/ nano‐/ ultranano‐crystalline diamond films were prepared respectively by microwave plasma chemical vapor deposition method using Ar/ H2 /CH4 gas mixture . The surface morphologies and crystalline sizes were detected by scanning electron microscopy and X‐ray diffraction , respectively . The quality and residual stress were analyzed by Raman spectroscopy . The micro‐hardness of the file was investigated by reciprocating type friction and wear tester . The results showed that as the Ar concentration increased , the grain size of the films were decreased ; and that the residual tensile stress caused by the shift of Raman G‐peak was increased ; the amorphous carbon phase was increased and the micro‐hardness was decreased .
