Richard F. Hall scite author profile

A B S T R A C T Foreign object damage (FOD) has been identified as one of the main life limiting factors for aeroengine blades, with the leading edge of aerofoils particularly susceptible. In this work, a generic edge 'aerofoil' geometry was utilized in a study of early fatigue crack growth behaviour due to FOD under low cycle fatigue (LCF), high cycle fatigue (HCF) and combined LCF and HCF loading conditions. Residual stresses due to FOD were analyzed using the finite element method. The longitudinal residual stress component along the crack path was introduced as a nodal temperature distribution, and used in the correction of the stress intensity factor range. The crack growth was monitored using a nanodirect current potential drop (DCPD) system and crack growth rates were correlated with the corrected stress intensity factor considering the residual stresses. The results were discussed with regard to the role of residual stresses in the characterization of fatigue crack growth. Small crack growth behaviour in FODed specimens was revealed only after the residual stresses were taken into account in the calculation of the stress intensity factor, a feature common to LCF, HCF and combined LCF + HCF loading conditions.

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Fatigue crack growth from foreign object damage under combined low and high cycle loading. Part II: A two-parameter predictive approach

Ding

Hall

Byrne

et al. 2007

International Journal of Fatigue

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Oral Versus Vaginal Misoprostol for Labor Induction

Hall

Duarte-Gardea

Harlass

2002

Obstetrics & Gynecology

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Richard F. Hall

Fatigue crack growth from foreign object damage under combined low and high cycle loading. Part I: Experimental studies

Influence of foreign object damage on fatigue crack growth of gas turbine aerofoils under complex loading conditions

Fatigue crack growth from foreign object damage under combined low and high cycle loading. Part II: A two-parameter predictive approach

Oral Versus Vaginal Misoprostol for Labor Induction

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