Enhanced mechanical performance and damping behavior of CFRP composites through exfoliated MWCNT functionalization

INIS

• performance 100%
• polymers 100%
• damping 100%
• carbon nanotubes 100%
• carbon fibers 100%
• silanes 80%
• oxidation 40%
• surfaces 40%
• levels 20%
• energy 20%
• comparative evaluations 20%
• interactions 20%
• information 20%
• matrices 20%
• tensile strength 20%
• xrd 20%
• morphological changes 20%
• excitation 20%
• flexural strength 20%
• interfaces 20%
• mechanical properties 20%
• thermal degradation 20%
• resins 20%
• impulse 20%
• fillers 20%
• dta 20%
• shear strength 20%

Material Science

• Polymer Composite 100%
• Reinforced Plastic 100%
• Carbon Fiber 100%
• Carbon Nanotubes 100%
• Silane 80%
• Oxidation Reaction 40%
• Ultimate Tensile Strength 20%
• Flexural Strength 20%
• X-Ray Diffraction 20%
• High-Resolution Transmission Electron Microscopy 20%
• Thermal Degradation 20%
• Functional Surface 20%
• Shear Strength 20%
• Morphology 20%

Engineering

• Carbon Nanotubes 100%
• Mechanical Performance 100%
• Fiber-Reinforced Polymer 100%
• Mechanical Damping 100%
• Tensiles 25%
• Resin Matrix 25%
• Ultimate Tensile Strength 25%
• Interlaminar Shear Strength 25%
• Functional Element 25%
• Thermal Degradation 25%
• Carbon Fibre Composite 25%
• Interlayer 25%
• Cohesive Energy 25%
• Bending Strength 25%