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Molecular dynamics simulation of mechanical deformation of ultra-thin amorphous carbon films

机译：超薄非晶碳薄膜力学变形的分子动力学模拟

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Amorphous carbon films approximately 20nm thick are used throughout the computer industry as protective coatings on magnetic storage disks. The structure and function of this family of materials at the atomic level is poorly understood. Recently. we simulated the growth of a:C and a:CH films 1 to 5 nm thick using Brenner's bond-order potential model with added torsional energy terms. The microstructure shows a propensity towards graphitic structures at low deposition energy (20eV). In this paper we present simulations of the evolution of this microstructure for the dense 20eV films during a simulated indentation by a hard diamond tip. We also simulate sliding, the tip across the surface to study dynamical processes like friction, energy transport and microstructure evolution during sliding.

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Glosli, J. N. ; Philpott, M. R. ; Belak, J.;
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年度 1995
页码 1-7
总页数 7
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Carbon; Magnetic Disks; Meetings; Amorphous State; Computerized Simulation; Density(Mass/volume); Deposition; Microstructure; Protective Coatings;

机译：碳;磁盘;会议;非晶态;计算机模拟;密度（质量/体积）;沉积;微观结构;防护涂层;

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3. The effect of deposition energy of energetic atoms on the growth and structure of ultrathin amorphous carbon films studied by molecular dynamics simulations [J] . N Wang, K Komvopoulos Journal of Physics, D. Applied Physics: A Europhysics Journal . 2014,第24期

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5. Molecular dynamic simulation of thermo-mechanical properties of ultra-thin poly(methyl methacrylate) films [D] . Silva Hernandez, Carlos Ardenis 2010

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7. Simulation of Mechanical Deformation and Tribology of Nano-Thin Amorphous Hydrogenated Carbon (a:Ch) Films Using Molecular Dynamics [O] . J. N. Glosli, M. R. Philpott, J. Belak 1996

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Molecular dynamics simulation of mechanical deformation of ultra-thin amorphous carbon films

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