A. Bhattacharyya et al., The origin of microtwinning at low strains during low-cycle fatigue of Inconel 718 at room temperature, J MATER SCI, 34(3), 1999, pp. 587-591
The low-cycle fatigue (LCF) behaviour of a Ni-Fe base superalloy Inconel 71
8 was studied at room temperature. Deformation mechanisms operating at diff
erent strain amplitudes were established by detailed transmission electron
microscopy at various fractions of fatigue life. It was observed that there
was an increase in the number of microtwins present in the microstructure
with increase in number of cycles, N, at low strains, where very little sli
p activity was identified. The undeformed specimens contain a number of ann
ealing twins in the microstructure which increased in number with increase
in cyclic deformation. Electron microscopy also revealed the existence of g
rain-boundary ledges in the undeformed specimens. A typical region of the g
rain-boundary area of the deformed samples showed a front of microtwins in
their "nascent" state, advancing from one grain into the other. It was conc
luded that in the low-strain regime, cyclic deformation was accommodated by
forming new microtwin interfaces emerging from grain-boundary ledges prese
nt in the undeformed specimens. (C) 1999 Kluwer Academic Publishers.