WC—Co硬质合金表面不同去钴预处理方法的比较研究

用微波等离子体化学气相沉积（MWPCVD）制备金刚石薄膜涂层之前，采用盐酸、硝酸化学腐蚀和氢-氧等离子体对WC-Co硬质合金（YG6）基体表面进行去钴预处理。扫描电子显微镜形貌观察和X射线衍射谱分析都表明，与化学腐蚀方法相比，氢-氧等离子体处理具有独特的表面钴效果，沉积金刚石薄膜的喇曼谱分析更证实其对涂层质量的改善，且对MWPCVD过程而言有其技术上的一些优越性。     

WC-Co硬质合金表面MW-PCVD制备金刚石薄膜去钴预处理的研究

研究了ＷＣ－Ｃｏ硬质合金刀具表面微波等离子体化学气相沉积（ＭＷ－ＰＣＶＤ）制备金刚石薄膜时不同的去钴预处理方式的影响。扫描电子显微镜形貌观察和喇曼谱分析表明，利用氢－氧等离子体处理方式有显著的去钴效果，相应沉积获得的金刚石薄膜质量相对较高。与酸腐蚀处理相比，微波等离子体化学气相沉积装置中实现氢－氧等离子体处理方式具有独特的优越性。     

WC—Co硬质合金表面MW—PCVD制备金刚石薄膜去钴预处理的研究

研究了ＷＣ－Ｃｏ硬质合金刀具表面微波等离子体化学气相沉积（ＭＷ－ＰＣＶＤ）制备金刚石薄膜时不同的去钴预处理方式的影响。扫描电子显微镜形貌观察和喇曼谱分析表明，利用氢－氧等离子体处理方式有显著的去钴效果，相应沉积获得的金刚石薄膜质量相对较高。与酸腐蚀处理相比，微波等离子体化学气相沉积装置中实现氢－氧等离子体处理方式具有独特的优越性。     

微波等离子体刻蚀处理对金刚石薄膜涂层刀具附着力和切削性能的影响

用HFCVD法在硬质合金（YG6）刀具衬底上沉积金刚石薄膜,用氢微波等离子体刻蚀的方法对衬底进行表面预处理,研究了该预处理技术对WC硬质合金衬底表面成分的影响,进一步探讨了所沉积金刚石薄膜的表面形貌和附着力,并通过难加工材料实际切削试验。研究了所制备的金刚石薄膜涂层刀具的切削性能。试验结果表明,Ar-H2微波等离子体刻蚀脱碳处理是提高金刚石薄膜附着力和改善涂层刀具切削性能的有效预处理方法。     

基片位置对MWPCVD制备金刚石薄膜的影响

在石英钟罩式微波等离子体化学气相沉积实验装置中研究了基片位置对金刚石薄膜沉积质量的影响。扫描电子显微镜显微形貌观察和激光喇曼谱分析表明 ,对微波等离子体化学气相沉积制备金刚石薄膜而言 ,基片位置处于近等离子体球下游区域将有利于改善金刚石薄膜沉积质量。     

基片位置对MWPCVD制备金刚石薄膜的影响

在石英钟罩式微波等离子体化学气相沉积实验装置中研究了基片位置对金刚石薄膜沉积质量的影响。扫描电子显微镜显微形貌观察和激光喇曼谱分析表明，对微波等离子体化学气相沉积制备金刚石薄膜而言，基片位置处于近等离子体球下游区域将有利于改善金刚石薄膜沉积质量。     

氧化铝基体表面预处理对金刚石薄膜生长的影响

采用微波等离子体化学气相沉积方法,在经不同预处理的氧化铝衬底上沉积金刚石薄膜.用X射线衍射仪、激光拉曼光谱仪、扫描电镜(SEM)对所得薄膜的成分、物相纯度和表面形貌进行表征,比较不同的预处理方式对金刚石薄膜生长的影响.结果表明,基体表面经过熔融碱腐蚀后形成薄膜的膜基结合良好且膜材质量最佳,但表面平整度较低;而基体只经金刚石微粉乙醇悬浊液超声处理则在沉积时金刚石容易成膜,且结构要更为致密;在经过酸腐蚀的基体上沉积金刚石薄膜时,容易在薄膜与基体之间先形成过渡层,而后才进行金刚石薄膜的沉积.所得结果表明熔融碱腐蚀处理是获得电学应用氧化铝基金刚石薄膜复合材料的最适宜的基体表面预处理.     

基片预处理对MWPCVD金刚石薄膜的影响

利用自行研制的石英钟罩式微波等离子体化学气相沉积金刚石薄膜装置，研究了硅基片的不同预处理方式对沉积结果的影响。通过扫描电子显微镜形貌观察和喇曼谱分析表明，基片预处理能提高形核密度；用于预处理的金刚石研磨膏的粒度不同，影响金刚石薄膜沉积时的形核密度，晶形和薄膜的质量；表面划痕对沉积金刚石薄膜的影响具有双重性。     

基片预处理对MWPCVD金刚石薄膜的影响

利用自行研制的石英钟罩式微波等离子体化学气相沉积金刚石薄膜装置，研究了硅基片的不同预处理方式对沉积结果的影响。通过扫描电子显微镜形貌观察和喇曼谱分析表明，基片预处理能提高形核密度；用于预处理的金刚石研磨膏的粒度不同，影响金刚石薄膜沉积时的形核密度、晶形和薄膜的质量；表面划痕对沉积金刚石薄膜的影响具有双重性。     

水冷反应室式MWPCVD制备金刚石膜装置研制

微波等离子体化学气相沉积(MWPCVD)是制备金刚石膜的一种重要方法.为了获得金刚石膜的高速率大面积沉积,研制成功了水冷反应室式MWPCVD制备金刚石膜的装置.装置在微波输入功率为3.0 kW时能长时间稳定运行,并在硅衬底上沉积出金刚石膜.     

直流电化学两步处理精磨硬质合金表面对CVD金刚石涂层的影响

经开刃、精磨处理而具实际加工能力的钨钴硬质合金刀具在制备CVD金刚石涂层前需进行基体前处理,但常规的化学预处理技术对其规模化应用时,会受到腐蚀效率,工艺重复性的限制.以精磨YG6硬质合金铣刀片为研究对象,采用直流弧光放电等离子体CVD设备、SEM、激光Raman光谱仪、原子吸收光谱仪、表面轮廓仪、洛氏硬度计等,研究了直...     

Fluidized bed micro-machining and HFCVD of diamond films onto Co-cemented tungsten carbide (WC-Co) hardmetal slabs

The effect of fluidized bed (FB) treatment upon hot filament chemical vapor deposition (HFCVD) of polycrystalline diamond films onto WC-Co hardmetal substrates was investigated. Several scenarios to make the substrates ready for HFCVD were, comparatively, evaluated and the resulting diamond films were examined in terms of their morphology and adhesion. The diamond grain density was measured by scanning electron microscopy. The adhesion of continuous diamond film to substrate was evaluated by the reciprocal of the slope of crack radius-indentation load functions. Surface binder dissolution followed by FB treatment (PF pretreatment) allowed very high diamond nucleation density and smaller grain size. The adhesion of films grown on PF pretreated substrates was found to be very close to that of films deposited on hardmetal slabs pretreated by Murakami's reagent followed by Co etching with Caro's acid and seeded with diamond suspension in an ultrasonic vessel (MPS pretreatment). However, diamond coatings on MPS pretreated samples exhibited a rougher surface morphology as a result of both lower diamond nucleation density and larger substrate surface roughening by Murakami's etching. Based upon experimental findings, our newly developed PF pretreatment was found to be a very promising technique in substrates conditioning as well as in promoting adherent, uniform and smooth diamond coatings onto hardmetal tools and wear parts.     

Adhesion improvement of diamond films on cemented carbides with copper implant layer

The deposition of diamond films on cemented carbides is strongly influenced by the catalytic effect of cobalt under typical deposition conditions. Decreasing the content of Co on the surface of the cemented carbide is often used for the diamond film deposition. But the leaching of Co from the WC-Co substrate leads to a mechanical weak surface, often causing poor adhesion. In this paper we adopt a copper implant layer to improve the mechanical properties of the Co leached substrate. The copper implant layer is prepared with vaporization. The diamond films are grown by microwave plasma chemical vapor deposition from the CH₄/H₂ gas mixture. The morphology and the quality of the diamond films have been characterized by scanning electron microscopy and Raman spectroscopy. A Rockwell apparatus has evaluated the adhesion of the diamond on the substrate. The results indicate that the diamond films have good adhesion to the cemented carbide substrate due to the recovery of the mechanical properties of the Co depleted substrate after the copper implantation and less graphite formation between the substrate and the diamond film.     

氧气对MWPCVD制备金刚石膜的影响

在水冷反应室式微波等离子体化学气相沉积装置中以混合的CH4/H2/O2为反应气体,研究了O2浓度对制备金刚石膜的影响.实验发现,很低浓度的O2会显著促进金刚石的沉积,并稍稍抑制非晶C的沉积,因而沉积膜中非晶C的含量急剧下降;较高浓度的O2会同时抑制金刚石和非晶C的沉积,但由于抑制金刚石的作用更强烈,沉积膜中非晶C的含量反而有所升高.另外,O2的存在,有利于沉积颗粒较小的金刚石膜.     

一种提高金刚石薄膜形核密度的新方法

报导了一种提高火焰法合成高质量金刚石薄膜形核密度的新方法-化学腐蚀法;研究了在化学腐蚀试样表面上金刚石的形核与生长行为、晶粒度与形核密度之间的关系。试验表明:经腐蚀后的样品,金刚石形核均匀致密,2min内便能形成连续的膜。金刚石形核密度随晶粒度的增加而增大。初步分析了化学腐蚀法提高形核密度的原因,认为晶界对金刚石的形核起重要作用。     

Microstructural control of boundary region between CVD diamond film and cemented carbide substrate

Effects of the composition, texture and pretreatment of cemented carbide substrates on the microstructure of the boundary region between CVD diamond film and the substrate were investigated using a microwave plasma CVD in the CO-H₂ system. Optimum CVD conditions for a uniform coating on to the edge part of cutting insert were: microwave power, 550 W; total pressure, 30 Torr; total flow rate, 200 ml/min; CO concentration, 5–20 vol%; treatment time, 3–5 h. An adherent and tough diamond coating was prepared by initial coating at lower CO concentrations and by subsequent coating at higher CO concentrations. A cemented carbide substrate in the binary WC-Co system which comprised fine-grained tungsten carbide and low content of cobalt was suited for preparation of adherent diamond coating. De-cobaltization pretreatment of the substrate surface in acid solution followed by an ultrasonic microflawing treatment enhanced the nucleation density and adherence of diamond film to the substrate. The rotation of substrate was found to be effective for increasing the uniformity and decreasing the grain size of diamond film.     

Effect of Plasma Power on the Deposition of Diamond Coatings on Pure Titanium

Diamond coatings appear to be a promising solution for the improvement of tribological behavior of titanium alloys. By means of microwave plasma assisted chemical vapor deposition (MW-PACVD), diamond coating was deposited on pure titanium using CH₄/H₂ gas mixtures under different plasma powers. Surface and interface characterization of the deposited coating under different plasma powers was carried out using SEM, grazing incidence x-ray diffraction (GIXD) and Raman spectroscopy. Adhesion of diamond coating with substrate was evaluated using an indentation tester. Results showed that adhesion of diamond coatings was not good under high plasma power, whereas the crystallinity of diamond coating was not good under low plasma power. The higher the plasma power, the larger the diamond crystal size, the less content of non-diamond carbon and the poorer the adhesion strength. During the diamond deposition, growth of TiC competed with diamond formation for the available carbon content. Relatively low plasma power inhibited TiC formation more than diamond formation. Under a high plasma power, the formation of a thick and porous TiC layer appeared to promote interfacial debonding and spallation of the diamond coating.