?The Applicability of the Manson-Coffin Law and Miner's Law to Extremely Low Cycle Fatigue
TLDR
In this paper, annealed low carbon steel in the extremely low cycle fatigue regime has been investigated and it was shown that the final fracture occurs at a strain cycle count less than that expected from the Manson-Coffin law for an ordinary low-cycle fatigue regime in which the development of small surface cracks leads to the fracture of the specimen.Abstract:
Attention has been focussed on the characteristics of the fatigue life of annealed low carbon steel in the extremely low cycle fatigue regime. In this regime, a transition of the fracture mode occurs from the surface to internal cracking with an increase in the plastic strain range. Results show that in this regime the final fracture occurs at a strain cycle count less than that expected from the Manson-Coffin law for an ordinary low cycle fatigue regime in which the development of small surface cracks leads to the fracture of the specimen. Such a reduction in fatigue life is caused by the cracking of pearlite inside the material at a high plastic strain range. The applicability of Miner's law to the prediction of the fatigue life under a variable plastic strain amplitude in the extremely low cycle fatigue regime has also been discussed.read more
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A unified expression for low cycle fatigue and extremely low cycle fatigue and its implication for monotonic loading
TL;DR: In this paper, a new unified expression is proposed to overcome the empirical Manson-Coffin law over-predicting the cyclic life under extremely low cycle fatigue condition, and the implication of the new expression to monotonic plastic fracture is discussed.
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Extremely low cycle fatigue life prediction based on a new cumulative fatigue damage model
TL;DR: In this article, a cumulative fatigue damage model was proposed to predict an extremely low cycle fatigue (ELCF) life for annealed low carbon steel of S20C, based on the concept that the damage due to ductility exhaustion should be considered besides the damage generated by crack propagation in the ELCF regime.
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A prediction model for extremely low cycle fatigue strength of structural steel
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Extremely-low-cycle fatigue behaviors of Cu and Cu–Al alloys: Damage mechanisms and life prediction
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Extremely low cycle fatigue prediction of steel beam-to-column connection by using a micro-mechanics based fracture model
TL;DR: In this paper, the cyclic void growth model (CVGM) was adopted to predict ELCF fracture of the beam-to-column connections in steel moment resisting frames.