A numerical/experimental study of contact damage in non-planar porcelain/metal bilayers

Physics

• Alloy 25%
• Coating 25%
• Cracking (Fracture) 50%
• Cracks 75%
• Curvature 50%
• Failure Modes 25%
• Geometry 25%
• Initiation 50%
• Irregularities 25%
• Metal 100%
• Plastic Deformation 25%
• Porcelain 100%
• Substrates 100%

Material Science

• Coating 25%
• Contact Area 75%
• Crack 75%
• Metal 100%
• Nickel-Chromium Alloys 25%
• Plastic Deformation 50%
• Porcelain 100%
• Surface 50%

Engineering

• Chromium Alloys 25%
• Coating 25%
• Crack 50%
• Critical Load 25%
• Experimental Investigation 25%
• Failure Mode 25%
• Finite Element Modeling 75%
• Layer Thickness 25%
• Substrate Interface 25%
• Substrates 75%
• Surfaces 50%
• Thickness 25%