Thermal instability of the microstructure and surface mechanical properties of hydrogenated amorphous carbon films

Engineering & Materials Science

• Amorphous films 100%
• Carbon films 96%
• Amorphous carbon 94%
• Microstructure 41%
• Mechanical properties 39%
• Hot Temperature 29%
• Annealing 26%
• Vacuum 15%
• Coatings 13%
• Energy dispersive X ray analysis 12%
• Substrates 12%
• Raman spectroscopy 11%
• Nanostructures 10%
• Temperature 10%
• Chemical vapor deposition 10%
• Laser beams 10%
• Argon 9%
• Compressive stress 9%
• Thermodynamic stability 9%
• Transmission electron microscopy 9%
• Microhardness 8%
• Hysteresis 8%
• Methane 8%
• Plasmas 8%
• Residual stresses 7%
• Scanning electron microscopy 6%
• Hardness 6%
• Silicon 6%
• Composite materials 5%
• Air 4%
• Experiments 3%

Physics & Astronomy

• thermal instability 77%
• mechanical properties 41%
• carbon 41%
• microstructure 36%
• annealing 13%
• vacuum 9%
• microhardness 7%
• residual stress 7%
• methane 7%
• coating 7%
• temperature 6%
• thermal stability 6%
• Raman spectroscopy 6%
• hardness 6%
• argon 5%
• hysteresis 5%
• bubbles 5%
• vapor deposition 5%
• electron energy 5%
• wafers 5%
• laser beams 5%
• damage 5%
• reflectance 5%
• coatings 5%
• transmission electron microscopy 5%
• scanning electron microscopy 5%
• composite materials 4%
• air 4%
• silicon 4%
• x rays 3%

Chemical Compounds

• Amorphous Material 42%
• Microstructure 41%
• Liquid Film 29%
• Carbon Atom 28%
• Surface 19%
• Annealing 18%
• Vacuum 12%
• Residual Stress 10%
• Vapor Deposition Process 9%
• Microhardness 8%
• Bubble 8%
• Hysteresis 7%
• Chemical Vapour Deposition 6%
• Displacement 6%
• Methane 6%
• Raman Spectroscopy 5%
• Thermal Stability 5%
• Transmission Electron Microscopy 5%
• Resistance 4%
• Nanomaterial 4%
• Coating Agent 4%
• Scanning Electron Microscopy 4%
• Composite Material 3%
• Amount 3%