Experimental and numerical study of fatigue behaviour at the microscale of cementitious materials

Engineering

• Models 100%
• Fatigue Property 100%
• Numerical Study 100%
• Microscale 100%
• Interfacial Transition Zone 50%
• Cement Paste 50%
• Microstructure 33%
• Fatigue Performance 33%
• Aging 33%
• Mesoscale 33%
• Multiscale 33%
• Stress Level 33%
• Environmental Scanning Electron Microscope 16%
• Experimental Result 16%
• Major Component 16%
• Fracture Surface 16%
• Small Scale 16%
• Multiscale Modeling 16%
• Spatial Scale 16%
• Fatigue Loading 16%
• Fatigue Life 16%
• Predictive Capability 16%
• Bending Tests 16%
• Experimental Technique 16%
• Images 16%
• Failure (Mechanical) 16%
• Aging of Material 16%
• Stiffness Degradation 16%
• Young's Modulus 16%

Material Science

• Cementitious Material 100%
• Fatigue Behavior 100%
• Damage Evolution 66%
• Fatigue Damage 66%
• Cement Paste 50%
• Materials Structure 50%
• Microstructure 33%
• Concrete 33%
• X-Ray Computed Tomography 33%
• Mechanical Strength 16%
• Scanning Electron Microscopy 16%
• Fracture Behavior 16%
• Crack 16%
• Fatigue of Materials 16%
• Concrete Structure 16%
• Stress-Strain Relations 16%
• Stiffness 16%
• Nanoindentation 16%
• Elastic Moduli 16%
• Devices 16%
• Surface 16%
• Characterization 16%
• Bending 16%
• Heterogeneous Material 16%

INIS

• numerical analysis 100%
• fatigue 100%
• damage 18%
• fractures 14%
• zones 11%
• cements 11%
• aging 11%
• levels 7%
• computerized tomography 7%
• testing 7%
• microstructure 7%
• performance 7%
• loading 7%
• modeling 7%
• increasing 3%
• failures 3%
• surfaces 3%
• precision 3%
• sample preparation 3%
• mortars 3%
• scanning electron microscopy 3%
• deformation 3%
• simulation 3%
• losses 3%
• bending 3%
• images 3%
• devices 3%
• strains 3%
• stiffness 3%
• cracks 3%