Wear Resistance of Cu/Ag Multilayers: A Microscopic Study

Keyphrases

• Ag Layer 50%
• Archard Law 25%
• As-grown 25%
• Atomic Force Microscopy 25%
• Chemical Dissolution 25%
• Cu Layer 25%
• Cu-Ag 100%
• Diamond Indenter 25%
• Forced Chemical Mixing 25%
• Hardness Values 25%
• High Temperature Wear Resistance 25%
• Homogeneous Solids 25%
• Indentation Hardness 25%
• Indenter 25%
• Layer Thickness 25%
• Magnetron Sputtering 25%
• Microscopic Study 100%
• Microscopic Wear 25%
• Microstructure 25%
• Nanoindentation 25%
• Nanoscratch 25%
• Rasterization 25%
• Scratch Hardness 50%
• Silver-copper Alloy 25%
• Sliding Wear Test 25%
• Solid Solution 50%
• Steady State 25%
• Steady-state Wear 25%
• Transmission Electron Microscopy 50%
• Tribo 25%
• Two Dimensional 25%
• Wear Behavior 25%
• Wear Rate 100%
• Wear Resistance 100%
• Wear Surface 25%
• Wear Test 50%
• Wear Volume 25%

Material Science

• Atomic Force Microscopy 25%
• Diamond 25%
• Film 25%
• Indentation 25%
• Magnetron Sputtering 25%
• Nanoindentation 25%
• Scratch Hardness 50%
• Silver 25%
• Sliding Wear 25%
• Solid Solutions 50%
• Surface Fatigue 25%
• Thin Films 25%
• Transmission Electron Microscopy 50%
• Wear Resistance 100%