Fatigue and Fracture of Traditional and Advanced Structural Alloys 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>elevated temperature||low cycle fatigue||damage accumulation||uniaxial and multiaxial loading||precipitates||fatigue crack growth||creep aging||artificial aging||fatigue||nickel-based single crystal superalloy||life modeling||resolved shear stress||railway axle||semi-elliptical crack||residual stresses||friction stir welding||residual stress||weak area||finite element simulation||life prediction||high temperature||12Cr1MoV steel||mixed salt environments||corrosion fatigue||heat pipe failure||critical plane model||multiaxial fatigue||non–proportional loading||316 stainless steel||304 stainless steel||fracture toughness||coarse-grained heat affected zone (CGHAZ)||X80 pipeline steels||weld thermal simulation||finite element analysis (FEA)||fatigue performance||rounded welding region||finite element modeling (FEM)||structure optimization||reinforcing plate||isotropic hardening||crack tip opening displacement||CTOD||crack closure||metal matrix composites||powder metallurgy||Fe/B4C composites||iron boride phases (Fe2B/FeB)||Charpy impact test||single crystal superalloy||recrystallization||fatigue small crack||slip||in situ SEM||ultrasonic cyclic testing||frequency effect||control type effect||strain rate effect||50CrMo4||SAE 4150||high cycle fatigue||very high cycle fatigue||statistical analyses||n/a