Strain Rate Induced Amorphization in Metallic Nanowires Academic Article

abstract

• Using molecular dynamics simulations with a many-body force field, we studied the deformation of single crystal Ni and NiCu random alloy nanowires subjected to uniform strain rates but kept at 300 K. For all strain rates, the Ni nanowire is elastic up to 7.5% strain with a yield stress of 5.5 GPa, far above that of bulk Ni. At high strain rates, we find that for both systems the crystalline phase transforms continuously to an amorphous phase, exhibiting a dramatic change in atomic short-range order and a near vanishing of the tetragonal shear elastic constant perpendicular to the tensile direction. This amorphization which occurs directly from the homogeneous, elastically deformed system with no chemical or structural inhomogeneities exhibits a new mode of amorphization. 1999 The American Physical Society.

authors

• Cagin, Tahir

published proceedings

• Physical Review Letters

altmetric score

• 3

author list (cited authors)

• Ikeda, H., Qi, Y., agin, T., Samwer, K., Johnson, W. L., & Goddard, W. A.

citation count

• 252

complete list of authors

• Ikeda, Hideyuki||Qi, Yue||Çagin, Tahir||Samwer, Konrad||Johnson, William L||Goddard, William A

publication date

• April 1999

publisher

• American Physical Society (APS)  Publisher

published in

• Physical Review Letters  Journal

Digital Object Identifier (DOI)

• 10.1103/physrevlett.82.2900

start page

• 2900

end page

• 2903

volume

• 82

issue

• 14

URL

• http%3A%2F%2Fdx.doi.org%2F10.1103%2Fphysrevlett.82.2900