Tunnelling cracks in composite laminates under planar biaxial strain controlled fatigue loading

Engineering

• Fatigue Loading 100%
• Lamination 100%
• Tunneling 100%
• Controlled Fatigue 100%
• Crack 100%
• Composite 100%
• Cruciform Specimen 46%
• Models 35%
• Crack Front 32%
• Multiscale 32%
• Damage Model 21%
• Crack Growth 21%
• Crack Density 17%
• Strain State 17%
• Energy Release Rate 14%
• Fatigue Damage 14%
• Testing 14%
• Performance 10%
• Design 10%
• Anisotropic 7%
• Control Algorithm 7%
• Cyclic Loading 7%
• Length Scale 7%
• Loading Condition 7%
• Biaxial Loading 7%
• Scale Damage 7%
• Elements 7%
• Growth Rate 7%
• Damage Evolution 7%
• Crack Initiation 7%
• Measurement 3%
• Algorithm 3%
• Stress State 3%
• Beam 3%
• Directional 3%
• Joints (Structural Components) 3%
• Coalescence 3%
• Calibration 3%
• Damage Mode 3%
• Mesoscale 3%
• Multiscale Modeling 3%
• Testing Method 3%
• Control Architecture 3%
• Coupling Matrix 3%
• Representative Volume Element 3%
• Maximum Principal Stress 3%
• Mode Mixity 3%
• Research Group 3%
• Crack Face Displacement 3%
• Discretization Scheme 3%
• Element Discretisation 3%
• Fatigue Testing 3%
• Cascade Control 3%
• Multiaxial Loading 3%
• Loading State 3%
• Image Point 3%
• Cyclic Strain 3%
• Lead Crack 3%
• Local Criterion 3%
• Hydrostatic Stress 3%
• Collinear Crack 3%
• Development 3%
• Experiments 3%
• Tasks 3%
• Buildings 3%
• Calculates 3%
• Fits and Tolerances 3%
• Digital Image 3%
• Local Maximum 3%

Physics

• Laminate 100%
• Cracks 100%
• Strain 100%
• Composite 100%
• Model 57%
• Region 28%
• Measuring Instruments 28%
• Growth 17%
• Performance 10%
• Wind Turbine 7%
• Volume 7%
• Algorithms 7%
• Finite Element Methods 7%
• Growth Rate 7%
• Initiation 7%
• Crack Initiation 7%
• Steady State 3%
• Calibration 3%
• Anisotropy 3%
• Hydrostatics 3%
• Strain Measurement 3%
• Cascade Control 3%
• Behavior 3%
• Work 3%
• Shapes 3%
• View 3%
• Matrix 3%
• Cores 3%
• Displacement 3%
• Joint 3%
• Corners 3%
• Digital Image 3%
• Cracking (Fracture) 3%