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Application of Life-Dependent Material Parameters to Fatigue Life Prediction under Multiaxial and Non-Zero Mean Loading

Krzysztof Kluger, Aleksander Karolczuk, Szymon Derda

2020Materials14 citationsDOIOpen Access PDF

Abstract

This study presents the life-dependent material parameters concept as applied to several well-known fatigue models for the purpose of life prediction under multiaxial and non-zero mean loading. The necessity of replacing the fixed material parameters with life-dependent parameters is demonstrated. The aim of the research here is verification of the life-dependent material parameters concept when applied to multiaxial fatigue loading with non-zero mean stress. The verification is performed with new experimental fatigue test results on a 7075-T651 aluminium alloy and S355 steel subjected to multiaxial cyclic bending and torsion loading under stress ratios equal to R = −0.5 and 0.0, respectively. The received results exhibit the significant effect of the non-zero mean value of shear stress on the fatigue life of S355 steel. The prediction of fatigue life was improved when using the life-dependent material parameters compared to the fixed material parameters.

Topics & Concepts

Materials scienceStructural engineeringGoodman relationTorsion (gastropod)Composite materialVibration fatigueStress (linguistics)Aluminium alloyAluminiumFatigue testingStress concentrationFracture mechanicsEngineeringPhilosophyLinguisticsSurgeryMedicineFatigue and fracture mechanicsHigh Temperature Alloys and CreepEngineering Structural Analysis Methods
Application of Life-Dependent Material Parameters to Fatigue Life Prediction under Multiaxial and Non-Zero Mean Loading | Litcius