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Prediction and evaluation of fatigue life for mechanical components considering anelasticity‐based load spectrum

Shuci Wang, Xintian Liu, Changjie Jiang, Xu Wang, Xiaolan Wang

2020Fatigue & Fracture of Engineering Materials & Structures44 citationsDOI

Abstract

Abstract To accurately predict the degraded fatigue life of components under random loads, anelasticity effect of metal on life estimation needs to be explored. Weighting coefficient and dynamic elastic modulus are introduced to modify the calculation process of the model. By establishing an equal‐amplitude fatigue median surface and applying Miner linear fatigue cumulative damage theory, a fatigue life prediction model of the component under random loads is proposed. The model can be used to calculate the degraded fatigue life of components, which provides a theoretical basis for life estimation under random load spectrum. The two‐dimensional load spectrum is compared with the unprocessed two‐dimensional load spectrum and the one‐dimensional program spectrum in life prediction results. With the comparison of the target life and simulation life and the data calculated by the model of the automobile front stabilizer bar, it is concluded that the data obtained by the modified model are more reasonable and accurate.

Topics & Concepts

Vibration fatigueWeightingStructural engineeringBar (unit)Spectrum (functional analysis)Component (thermodynamics)EngineeringMaterials scienceFatigue testingPhysicsAcousticsMeteorologyThermodynamicsQuantum mechanicsFatigue and fracture mechanicsNon-Destructive Testing TechniquesProbabilistic and Robust Engineering Design
Prediction and evaluation of fatigue life for mechanical components considering anelasticity‐based load spectrum | Litcius