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General quantification of fatigue damage with provision for microstructure: A review

Arash P. Jirandehi, M. M. Khonsari

2021Fatigue & Fracture of Engineering Materials & Structures30 citationsDOIOpen Access PDF

Abstract

Abstract Recent developments in microstructure‐sensitive computational modeling and experimental verification have provided significant insight on how one can estimate fatigue damage and predict useful life. As a myriad of methods and approaches are available, it is important to understand how to properly utilize them in a unified and efficient framework for the quantification of damage in safety‐critical components such as jet engine fan blades, gas turbine disks, and airframe structural connections. To this end, the microstructure‐sensitive studies considering crystal plasticity are reviewed, and methods for implementing the statistical representations of material microstructure are presented. Finally, a computational crystal plasticity approach utilizing the statistical representation of parameters and a new thermodynamically based framework is suggested.

Topics & Concepts

AirframeMicrostructureRepresentation (politics)Jet engineGas turbinesCrystal plasticityFatigue testingStructural engineeringPlasticityComputer scienceBenchmark (surveying)Materials scienceUncertainty quantificationTurbine bladeMechanical engineeringTurbineEngineeringMachine learningMetallurgyGeologyComposite materialPolitical scienceLawPoliticsGeodesyFatigue and fracture mechanicsHigh Temperature Alloys and CreepProbabilistic and Robust Engineering Design