High friction of a vertically aligned carbon-nanotube film in microtribology
スポンサーリンク
概要
著者
-
Ohmae Nobuo
Department Of Mechanical Engineering Faculty Of Engineering Kobe University
-
Tagawa Masahito
Department Of Mechanical Engineering Faculty Of Engineering Kobe University
-
Kinoshita Hiroshi
Department Of Material And Life Science Graduate School Of Engineering Osaka University
関連論文
- Formation of Thin Oxide Films on Room-Temperature Silicon (100) by Exposure to a Neutral Beam of Hyperthermal Atomic and Molecular Oxygen
- Oxidation Properties of Hydrogen-Terminated SI (001) Surfaces Following Use of a Hyperthermal Broad Atomic Oxygen Beam at Low Temperatures : Instrumentation, Measurement, and Fabrication Technology
- The Tribological Characteristics of Ni-Cr Cast Alloy at 1000 Degree C in Air
- Effect of Low-Energy Ion Bombardment upon Field-Stimulated Exoelectron Emission from Tungsten Surfaces
- Surface Reaction of a Low-Flux Atomic Oxygen Beam with a Spin-Coated Polymide Film : Synergetic Effect of Atomic Oxygen and Ultraviolet Exposures
- Surface Reaction of a Low Flux Atomic Oxygen Beam with a Spin-Coated Polyimide Film : Translational Energy Dependence on the Reaction Efficiency
- Effects of External Stresses on the Low Temperature Thermal Oxidation of Silicon
- Surface Characterization of Carbon Fibers Exposed to 5 eV Energetic Atomic Oxygen Beam Studied by Wetting Force Measurements
- High growth rate of vertically aligned carbon nanotubes using a plasma shield in microwave plasma-enhanced chemical vapor deposition
- High friction of a vertically aligned carbon-nanotube film in microtribology
- Study on Near Dry Machining of Aluminum Alloys(Advanced Manufacturing Technology [I])
- Synthesis and mechanical properties of carbon nanotube/diamond-like carbon composite films
- Effect of the Soft X-rays on Highly Hydrogenated Diamond-Like Carbon Films
- Synchrotron Radiation Photoelectron Emission Study of SiO2 Film Formed by Hyperthermal O-Atom Beam at Room Temperature
- Frictional Properties of Carbon Nanotube Films with a Load Range from Micronewton to Millinewton Using mm Size Balls