Measurements of fibre bridging during fatigue crack growth in Ti/SiC fibre metal matrix composites

Keyphrases

• Fatigue Crack Growth 100%
• Crack Tip 100%
• Metal Matrix Composites 100%
• Fiber Bridging 100%
• SiC Fiber 100%
• Fiber Metal 100%
• Fatigue Crack 66%
• Interfacial Shear Stress 66%
• Interface Strength 66%
• Ti-6Al-4V (Ti64) 33%
• Synchrotron 33%
• Synchrotron X-ray 33%
• High Spatial Resolution 33%
• Small Area 33%
• Thermal Stress 33%
• Bridging Fiber 33%
• Strain Measurement 33%
• In Situ Loading 33%
• Three-point Bending 33%
• Strain Distribution 33%
• Maximum Stress 33%
• Fiber Composites 33%
• Three Dimensional Finite Element Model 33%
• Maximum Tensile Stress 33%
• Elastic Fibers 33%
• Fiber Strain 33%
• Strain Mapping 33%
• Bridging Zone 33%
• Longitudinal Strain 33%
• Tensile Strain 33%
• Crack Opening 33%
• Unloaded Condition 33%
• Frictional Resistance 33%
• Coulomb Friction Law 33%
• Far-field Region 33%
• Residual Strain 33%
• Elastic Matrix 33%
• Node Release 33%
• Damaged Interface 33%

Engineering

• Bridging 100%
• Metal Matrix Composite 100%
• Fatigue Crack Growth 100%
• Crack Tip 100%
• Fatigue Crack 66%
• Max 66%
• Interfacial Shear Stress 66%
• Interface Strength 66%
• Ti-6al-4v 33%
• Tensiles 33%
• Spatial Resolution 33%
• Induced Stress 33%
• Finite Element Modeling 33%
• Nodes 33%
• Point Bending 33%
• Composite Fiber 33%
• Maximum Stress 33%
• Fibre Strain 33%
• Longitudinal Strain 33%
• Tensile Strain 33%
• Crack Opening 33%
• Frictional Resistance 33%
• Friction Law 33%
• Coulomb Friction 33%
• Maximum Tensile Stress 33%
• Matrix Strain 33%
• Residual Strain 33%
• Elastic Matrix 33%
• Field Region 33%

Material Science

• Metal Matrix Composite 100%
• Crack Tip 100%
• Fatigue Crack Growth 100%
• Fatigue Crack 66%
• Ultimate Tensile Strength 33%
• Ti-6Al-4V 33%
• Finite Element Modeling 33%
• Tensile Strain 33%
• Strain Measurement 33%
• Composite Material 33%