Compressive response of multiple-particles-polymer systems at various strain rates

Engineering

• Strain Rate 100%
• Polymer System 100%
• Polyurethan 33%
• Split Hopkinson Pressure Bar 16%
• Damage Mechanism 16%
• Speed Camera 16%
• Composite Material 16%
• Mechanical Response 16%
• Strain Energy 16%
• Maximum Stress 16%
• Material System 16%
• Static Stiffness 16%
• Stress-Strain Relations 16%
• Dynamic Stress 16%
• Crack Initiation 16%
• Yield Stress 16%
• Filled Particle 16%
• Mm Diameter 16%
• Dependent Behavior 16%
• Reference Case 16%
• Elastomeric Matrix 16%

Material Science

• Strain Rate 100%
• Polymer Particle 100%
• Polyurethane 28%
• Scanning Electron Microscopy 14%
• Polymer Composite 14%
• Poly Methyl Methacrylate 14%
• Mechanical Strength 14%
• Yield Stress 14%
• Composite Material 14%
• Stress-Strain Relations 14%
• Crack Initiation 14%
• Filled Polymer 14%

Chemical Engineering

• Polyurethane 100%