M. Hawkyard et al., FATIGUE-CRACK GROWTH UNDER THE CONJOINT ACTION OF MAJOR AND MINOR STRESS CYCLES, Fatigue & fracture of engineering materials & structures, 19(2-3), 1996, pp. 217-227
Fatigue crack growth rates in corner notched specimens of forged Ti-6A
l-4V, used in the manufacture of rotating aero-engine components, have
been measured for fatigue loadings that combine major and minor stres
s cycles. The loadings are simple representations of the flight cycle
and the potential in-flight vibrations, each loading block consisting
of high-frequency minor cycles superimposed on the major cycle dwell a
t maximum load. The crack growth rates are dependent on the number and
stress ratio of the minor cycles, but only when they individually con
tribute to the growth of the crack. Estimates of the fatigue threshold
values and near-threshold growth rates associated with the minor cycl
es have been made, all potential load history effects having been ascr
ibed to the minor cycle component of the loading. Using this data, sat
isfactory crack propagation life predictions have been demonstrated fo
r a wide range of test conditions involving the conjoint action of maj
or and minor stress cycles.