https://doi.org/10.1051/epjap:1999145
Atomic force microscopy of twin formation in low-stacking fault CuAl alloy
Laboratoire de Métallurgie-Physique, Université de Poitiers, B.P. 179, 86960
Futuroscope Cedex, France
Corresponding author: coupeau@lmp.univ-poitiers.fr
Received:
31
March
1998
Revised:
24
September
1998
Accepted:
1
December
1998
Published online: 15 April 1999
CuAl single crystals of a low stacking fault energy have been deformed along the 〈111〉 direction in an apparatus which consists of a compression machine interfaced with an atomic force microscope. The emergence process of dislocations has been in situ studied during deformation. Plasticity occurs in this material by propagation of Shockley dislocations which generate two possible kinds of stacking faults, extrinsic or intrinsic. The fine structure of slip lines has been investigated by atomic force microscopy. A differentiation between these two possible twin mechanisms in this alloy is attempted. It is concluded that twinning in this material can not only be explained by the intrinsic stacking faults and that the contribution of extrinsic faults has to be considered.
PACS: 61.16.Ch – Scanning probe microscopy: scanning tunneling, atomic force, scanning optical, magnetic force, etc. / 68.35.Bs – Surface structure and topography / 61.72.Nn – Stacking faults and other planar or extended defects
© EDP Sciences, 1999
