E. Cadel et al., Investigation of boron-enriched Cottrell atmospheres in FeAl on an atomic scale by three-dimensional atom-probe field-ion microscopy, PHIL MAG L, 80(11), 2000, pp. 725-736
In 1949, on the basis of theoretical considerations, Cottrell proposed the
concept of 'atmospheres' (called later by his name) to explain some specifi
c behaviour of materials during plastic deformation, such as sharp yield-po
int formation or the Portevin-LeChatelier effect. In this letter, atomic-sc
ale observations and three-dimensional analyses of a Cottrell atmosphere ar
e reported. They have been performed by three-dimensional atom-probe field-
ion microscopy techniques. The ability of this new experimental method to p
rovide atomic-resolution images, both structural and chemical, was confirme
d; the basic stacking structure of (001) planes in FeAl could be visualized
with success. Moreover the presence of a [001] edge dislocation was also d
etected in the analysed zone. Further, B enrichment was measured in the vic
inity of this defect; the B-rich region appeared as a pipe 5 nm in diameter
, parallel to the dislocation line. The concentration of B in the core reac
hed 3 at.%; this local enrichment in boron was accompanied by an Al depleti
on of more than 10 at.%. Boron in FeAl has a well known tendency to segrega
te to internal interfaces. In this letter, we show experimental evidence of
the solute segregation to dislocation lines. The observed effects of this
segregation on mechanical properties of FeAl, both at room temperature and
high temperatures, are also discussed.