Surface and tribological characteristics of tribofilms formed in the boundary lubrication regime with application to internal combustion engines

INIS

• additives 83%
• applications 100%
• atomic force microscopy 16%
• detergents 16%
• efficiency 16%
• emission 16%
• energy 16%
• engines 16%
• films 66%
• friction 100%
• fuels 16%
• interactions 66%
• internal combustion engines 100%
• levels 33%
• lubricants 83%
• lubrication 100%
• morphology 16%
• oils 16%
• particulates 16%
• plates 16%
• regulations 16%
• surfaces 100%
• tribology 16%
• values 16%
• wear 100%
• wear resistance 16%
• x radiation 16%
• x-ray photoelectron spectroscopy 16%
• zinc 50%

Engineering

• Antiwear Additive 33%
• Atomic Force Microscopy 33%
• Boundary Lubrication 33%
• Boundary Lubrication Regime 100%
• Dithiophosphates 100%
• Energy-Dispersive X-Ray Analysis 33%
• Exhaust Emission 33%
• Friction Modifier 66%
• Fuel Efficiency 33%
• Internal Combustion Engine 100%
• Lubricated Wear 33%
• Oil Temperature 33%
• Ray Photoelectron Spectroscopy 33%
• Tribology 33%
• Wear Resistance 33%

Material Science

• Antiwear Additive 25%
• Boundary Lubrication 100%
• Energy Dispersive X Ray Analysis 25%
• Film 100%
• Lubricated Wear 25%
• Surface Analysis 25%
• Tribology 25%
• Wear Resistance 25%
• X-Ray Photoelectron Spectroscopy 25%