1) diamond-like carbon
类金刚石
1.
Research on electrochemical behaviors of diamond-like carbon film electrodes
类金刚石薄膜电极的电化学行为研究
2.
Under a static high magnetic field of 10 T, diamond-like carbon (DLC) nanocrystals and n-diamond particles have been synthesized at atmospheric pressure and 1100 ℃, with carbon black as carbon source and nanometer-sized iron as catalyst.
在直流恒稳强磁场 ( 10T)作用下 ,以纳米铁为催化剂 ,碳黑为碳源 ,在常压和 110 0℃下保温 10 0min成功地制备出了类金刚石和新金刚石 ,并用XRD ,TEM和Raman对制备的样品粉末进行表征 。
3.
In this paper, preparation of diamond-like carbon by electrolysis of organic solutions is discussed and the propeHies of diamond-like carbon films are analyzed.
本文讨论了电解有机溶液法制备类金刚石薄膜,对所得到的类金刚石薄膜的性质进行分析,并提出了初步的沉积机理。
2) DLC
类金刚石
1.
Thermal Stability of Magnetron Sputtered DLC;
磁控溅射类金刚石的热稳定性
2.
A Review of Deposition Processes of DLC Films;
类金刚石(DLC)膜的制备技术概况
3.
The structure of the diamond-like carbon(DLC) film is briefly discussed.
简要介绍了类金刚石膜的结构,综述了类金刚石膜的传统制备方法以及其制备方法的基本原理和优缺点,同时介绍了几种近年发展起来的新兴制备方法,与传统制备方法相比,它更能提高膜的沉积速率和质量。
3) diamond-like carbon(DLC)
类金刚石
1.
Laser damage behavior and LIDT of diamond-like carbon(DLC) films irradiated under different laser parameters were reviewed.
讨论激光辐照对类金刚石结构和性质的影响规律。
4) DLC films
类金刚石膜
1.
Some difficulties of vacuum graphite cathodic arc deposition have been overcome and DLC films have been successfully fabricated by means of VCAD method.
克服了真空石墨电弧沉积过程中的一些难点,成功地利用真空阴极电弧沉积法制备了类金刚石膜,并对其表面形貌、硬度及结合强度、结构进行了分析,结果表明,真空阴极电弧沉积法是制备综合性能良好的光亮类金刚石膜的有效方法。
2.
There are mainly two methods of preparing DLC films: physical vapor deposition and chemical vapor deposition.
本课题首先使用等离子体增强化学气相沉积设备在不同参数下制备类金刚石膜,其次用原子力显微镜对所制备试样的表面粗糙度、摩擦力和摩擦系数进行表征,最后用纳米压痕仪测量薄膜的硬度和杨氏模量。
5) diamond-like carbon films
类金刚石膜
1.
Effect of the laser power density on the properties and structures of the diamond-like carbon films deposited by pulsedlaser ablation of graphite;
激光功率密度对类金刚石膜结构性能的影响
2.
The synthesis theory, deposition methods, development and prospect of diamond-like carbon films (DLC) are introduced.
介绍了类金刚石膜DLC的形成原理、制备方法和发展现状,总结了DLC在机械、电子、声学、光学和医学等领域的应用状况以及存在的问题。
3.
for producing diamond-like carbon films in recent years were reviewed.
概述了近年来制备类金刚石膜的新方法如双射频辉光放电 (RF-RF)法、射频-直流辉光放电 (RF-DC)法和微波-射频 (MW-RF)法等;并且对影响类金刚石膜制备及性能的因素如基体材料、制备类金刚石膜时在膜中添加元素、类金刚石膜与基材之间的中间层等进行了较全面的分析。
6) Diamond-like carbon
类金刚石膜
1.
Study of nanotribology of ultrathin diamond-like carbon (DLC) based on lateral force microscope (LFM);
基于LFM的类金刚石膜纳米摩擦现象研究
2.
Diamond-like carbon(DLC) films were grown on copper substrate coated with an intermediate layer by magneto-sputtering physical vapor deposition(MS-PVD) and by microwave electron cyclotron resonance(MW-ECR) plasma enhanced chemical vapor deposition(PECVD).
将磁控溅射物理气相沉积(MS-PVD)和电子回旋共振-微波等离子体增强化学气相沉积(ECR-PECVD)技术相结合,在铜基体上通过制备两种不同的过渡层,成功地沉积了类金刚石膜。
3.
In this article we successfully synthesized diamond-like carbon (DLC) films on the stainless steel, glass and silicon substrates using C4H10(or CH4) and argon as source gases by radio frequency plasma enhanced chemical vapor deposition (rf PECVD) process.
在电容耦合的射频PECVD系统中,等离子体鞘层作用的结果会在阴极板上产生自偏压,有利于碳离子沉积形成类金刚石膜;借助所设计的中间过渡层Ti/TiN/TiC,在不锈钢上成功沉积了一定厚度的DLC膜,膜与基底的结合力较好;通过优化工艺参数,可以成功地在玻璃、硅片等基底上沉积DLC膜,扩大用射频PECVD工艺沉积类金刚石膜的适用范围。
补充资料:类金刚石膜
分子式:
CAS号:
性质:又称山膜。碳的一种亚稳态,组成主要是碳,也含有氢,其量随工艺条件而异,最多时可达20%。类金刚石具有很高的硬度、高导热性、高绝缘性、良好的化学稳定性、从红外到紫外的高光学透过率等。这与金刚石相似,但其性能数值均低于金刚石膜。类金刚石膜已开始用作耐磨涂层。
CAS号:
性质:又称山膜。碳的一种亚稳态,组成主要是碳,也含有氢,其量随工艺条件而异,最多时可达20%。类金刚石具有很高的硬度、高导热性、高绝缘性、良好的化学稳定性、从红外到紫外的高光学透过率等。这与金刚石相似,但其性能数值均低于金刚石膜。类金刚石膜已开始用作耐磨涂层。
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