Fracture and Fatigue Assessments of Structural Components 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>fatigue life prediction||dissipated energy||thermo-graphic technique||thermal evolution||peridynamics||composite||ordinary state-based||double cantilever composite beam (DCB)||delamination||control volume concept||critical plane approach||fatigue life assessment||severely notched specimens||strain energy density||monitoring of fatigue crack||damage index||ultrasonic guided waves||sensor network||structural health monitoring||thermal fatigue||thermal barrier coat||master–slave model||life prediction||nozzle guide vane||microcracks||multiple fatigue crack||crack coalescence||concrete beams||damage evolution||multiscale||fatigue damage evolution||ABAQUS subroutine||3D reconstruction||MCT scanning||fatigue life||cleat filler||broken coal seam||wellbore stability||analytical model||affecting factors||fatigue crack||welded bogie frame||wheel polygon||rail corrugation||running speed||finite fracture mechanics||nanoscale||silicon||brittle||notch||fracture||nanodevice||life assessment||crack initiation||crack propagation||finite element method||scroll compressor||fatigue||crack||metal||structure||welded joint||FEM