Approximate methods are used to calculate the growth of grain-boundary cavities by power-law creep, under multi axial stress states. The time to fracture at constant stress is given by
tf=tn+ɑ/n+1)εss1n(1/(n+1)fi)
where tn is the nucleation time (the time at which the voids first appear), εss is the steady-state creep rate, n is the creep exponent and fi is the original area fraction of cavities. The quantity α is defined by:
ɑ=1/sinh-{2(n-½)/(n½)P/σe}
where p is the hydrostatic pressure and σe the von Mises equivalent stress. Differential equations are given which allow the times and the strains to failure under variable loading histories to be calculated.
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