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Determination of slip systems and their relation to the high ductility and fracture toughness of the B2 DyCu intermetallic compound

✍ Scribed by G.H. Cao; D. Shechtman; D.M. Wu; A.T. Becker; L.S. Chumbley; T.A. Lograsso; A.M. Russell; K.A. Gschneidner Jr.

Publisher: Elsevier Science
Year: 2007
Tongue: English
Weight: 579 KB
Volume: 55
Category: Article
ISSN: 1359-6454
DOI: 10.1016/j.actamat.2007.02.025

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✦ Synopsis

DyCu single crystals with CsCl-type B2 structure were tensile tested at room temperature. Slip trace analysis shows that the primary slip system in DyCu with a tensile axis orientation of AE1 1 0ae is {1 1 0}AE0 0 1ae and the critical resolved shear stress for {1 1 0}AE0 0 1ae slip is 18 MPa. Slip traces were also observed from a secondary slip system, {1 1 0}AE1 1 1ae, and this slip system appears to be a key contributor to the previously reported high ductility and high fracture toughness of polycrystalline DyCu. Transmission electron microscopy determinations of the Burgers vectors of dislocations in tensile tested specimens revealed AE1 0 0ae and AE1 1 1ae dislocations, with AE1 0 0ae-type dislocations being more abundant. The implications of these findings for the understanding of the mechanical properties of DyCu and the large family of ductile rare earth B2 intermetallics are discussed.

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