A mathematical model for frost growth and densification on flat surfaces

Physics & Astronomy

• frost 100%
• densification 70%
• flat surfaces 62%
• mathematical models 58%
• cold surfaces 30%
• air 30%
• water vapor 20%
• surface temperature 19%
• boundary conditions 14%
• supersaturation 11%
• humidity 9%
• heat flux 9%
• heat transfer 7%
• vapors 7%
• saturation 7%
• heat 6%
• gradients 6%
• temperature 5%
• predictions 5%

Engineering & Materials Science

• Densification 80%
• Mathematical models 48%
• Water vapor 31%
• Saturation (materials composition) 30%
• Temperature 22%
• Boundary conditions 21%
• Supersaturation 20%
• Atmospheric humidity 12%
• Heat transfer 9%
• Hot Temperature 6%

Chemical Compounds

• Densification 77%
• Water Vapor 44%
• Heat 34%
• Heat Transfer 25%
• Surface 22%