Analysis of energy balance when using Cohesive Zone Models to simulate fracture processes

Engineering & Materials Science

• Strain energy 77%
• Energy balance 75%
• Cracks 48%
• Interfacial energy 29%
• Fracture energy 28%
• Ceramic materials 28%
• Cavitation 26%
• Fracture mechanics 24%
• Plastics 17%
• Polymers 17%
• Composite materials 13%

Chemical Compounds

• Energy Balance 100%
• Strain Energy 45%
• Energy 33%
• Cohesive Energy 31%
• Fracture Mechanics 18%
• Fracture Energy 17%
• Metallic Material 15%
• Cavitation 15%
• Interfacial Energy 11%
• Fragmentation 9%
• Ceramic 9%
• Flow 7%
• Composite Material 5%

Physics & Astronomy

• energy 21%
• cracks 15%
• fracture mechanics 7%
• wakes 6%
• cavitation flow 6%
• surface energy 6%
• sliding 6%
• fragmentation 5%
• plastics 5%