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In dealing with fracture and fatigue assessments of structural components, different approaches have been proposed in the literature. They are usually divided into three subgroups according to stress-based, strain-based, and energy-based criteria. Typical applications include both linear elastic and elastoplastic materials and plain and notched or cracked components under both static and fatigue loadings. The aim of this Special Issue is to provide an update to the state-of-the-art on these approaches. The topics addressed in this Special Issue are applications from nano- to full-scale complex and real structures and recent advanced criteria for fracture and fatigue predictions under complex loading conditions, such as multiaxial constant and variable amplitude fatigue loadings.

History of engineering & technology --- 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

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

In dealing with fracture and fatigue assessments of structural components, different approaches have been proposed in the literature. They are usually divided into three subgroups according to stress-based, strain-based, and energy-based criteria. Typical applications include both linear elastic and elastoplastic materials and plain and notched or cracked components under both static and fatigue loadings. The aim of this Special Issue is to provide an update to the state-of-the-art on these approaches. The topics addressed in this Special Issue are applications from nano- to full-scale complex and real structures and recent advanced criteria for fracture and fatigue predictions under complex loading conditions, such as multiaxial constant and variable amplitude fatigue loadings.

History of engineering & technology --- 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 --- 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