The nature of initiation and propagation S‐N curves at and below the fatigue limit
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[1] M. N. Bassim,et al. Acoustic emission mechanisms during high-cycle fatigue , 1981 .
[2] D. C. Connors,et al. Acoustic emission analysis during fatigue crack growth in steel , 1977 .
[3] M. Lysak. Development of the theory of acoustic emission by propagating cracks in terms of fracture mechanics , 1996 .
[4] Sandeep M. Vijayakar,et al. Detecting Gear Tooth Breakage Using Acoustic Emission: a Feasibility and Sensor Placement Study , 1999 .
[5] Miller,et al. The fatigue limit and its elimination , 1999 .
[6] Bathias. There is no infinite fatigue life in metallic materials , 1999 .
[7] H. L. Dunegan,et al. Continuous monitoring of fatigue-crack growth by acoustic-emission techniques , 1974 .
[8] S. S. Manson,et al. Interfaces between fatigue, creep, and fracture , 2012 .
[9] Avinash Singh. An Experimental Investigation of Bending Fatigue Initiation and Propagation Lives , 2001 .
[10] C. E. Richards,et al. Acoustic emission monitoring of fatigue crack growth , 1978 .
[11] Horace Grover,et al. An Observation Concerning the Cycle Ratio in Cumulative Damage , 1960 .
[12] P. H. Feenstra,et al. Constitutive Model for Reinforced Concrete , 1995 .
[13] K. M. Golos,et al. Cumulative fatigue damage , 1988 .
[14] R. Harrington,et al. Acoustic emissions of fatigue crack growth , 1973 .