材料工程
材料工程
재료공정
JOURNAL OF MATERIALS ENGINEERING
2009年
11期
74-79
,共6页
祝土富%沈丽如%徐桂东%金凡亚
祝土富%瀋麗如%徐桂東%金凡亞
축토부%침려여%서계동%금범아
磁过滤真宅阴极弧%含铬DLC膜
磁過濾真宅陰極弧%含鉻DLC膜
자과려진택음겁호%함락DLC막
DC filtered cathodic vacuum arc%Cr-DLC films
采用磁过滤直流真空阴极弧沉积技术在单晶硅片、载玻片、不锈钢片基体上制备了含铬类金刚石(Cr-DLC)膜.用光学显微镜、椭偏仪、分光光度计、X射线光电子能谱(XPS)、X射线衍射能谱(XRD)、Raman光谱、纳米硬度计、摩擦磨损仪、洛氏硬度计检测了薄膜的组分结构、光学、力学等相关特性.结果表明,硅片上的薄膜厚度为47.6nm,碳含量为89%,s p~3键占碳含量的55.15%.不锈钢片上的薄膜具有典型的DLC膜Raman光谱特征,在空气中的摩擦系数约为0.1,耐磨性能优良,膜与基体的结合性能良好.
採用磁過濾直流真空陰極弧沉積技術在單晶硅片、載玻片、不鏽鋼片基體上製備瞭含鉻類金剛石(Cr-DLC)膜.用光學顯微鏡、橢偏儀、分光光度計、X射線光電子能譜(XPS)、X射線衍射能譜(XRD)、Raman光譜、納米硬度計、摩抆磨損儀、洛氏硬度計檢測瞭薄膜的組分結構、光學、力學等相關特性.結果錶明,硅片上的薄膜厚度為47.6nm,碳含量為89%,s p~3鍵佔碳含量的55.15%.不鏽鋼片上的薄膜具有典型的DLC膜Raman光譜特徵,在空氣中的摩抆繫數約為0.1,耐磨性能優良,膜與基體的結閤性能良好.
채용자과려직류진공음겁호침적기술재단정규편、재파편、불수강편기체상제비료함락류금강석(Cr-DLC)막.용광학현미경、타편의、분광광도계、X사선광전자능보(XPS)、X사선연사능보(XRD)、Raman광보、납미경도계、마찰마손의、락씨경도계검측료박막적조분결구、광학、역학등상관특성.결과표명,규편상적박막후도위47.6nm,탄함량위89%,s p~3건점탄함량적55.15%.불수강편상적박막구유전형적DLC막Raman광보특정,재공기중적마찰계수약위0.1,내마성능우량,막여기체적결합성능량호.
Cr-containing hydrogenated diamond-like carbon (Cr-DLC) films were deposited on stainless steel plate, monocrystalline silicon wafer and microscope slide glass by DC filtered cathodic vacuum arc technology. The composition, structure and properties of Cr-DLC films were investigated by spec-troscopic ellipsometer, X-ray photoelectron spectroscopy(XPS), powder X-ray diffraction(XRD), spectrophotometer, Raman spectroscopy, nanoindenter, ball-on-disk tribometer, Rockwell apparatus and optical microscope. It was shown that the content of C is 89% in the film deposited on silicon wa-fer and the content of sp~3 bonding carbon atoms in the C element is 55.15%. The Raman spectra of the film deposited on stainless steel plate has the typical characteristics of DLC. The hardness and elastic modulus of the film deposited on stainless steel plate are 16.01 GPa and 142.72 GPa. The fric-tion coefficient of the film deposited on stainless steel plate is about 0.1, the film also exhibits excel-lent wear resistance and the adhesion to substrate is very well.