{ "content-origin" "NIST IPRP (https://www.ctcms.nist.gov/potentials/Cu.html#Cu-Zr)" "contributor-id" "360c0aed-48ce-45f6-ba13-337f12a531e8" "description" "Finnis-Sinclair potential for the Cu-Zr system developed by Borovikov, Mendelev and King (2016). As reported by the NIST IPRP, the developer Mikhail Mendelev stated that this potential was developed in the same manner as Cu-Zr_2.eam.fs (see https://openkim.org/cite/MO_600021860456_004), except that the MCu31 potential from [V. Borovikov, M.I. Mendelev and A.H. King, MSMSE 24, 085017 (2016).] was used for the Cu part (see https://openkim.org/cite/MO_097471813275_000). This was done because this Cu potential has more realistic stacking fault properties. This potential can be used to simulate the plastic deformation in the Cu-Zr amorphous alloys with embedded Cu particles.\r\n" "developer" [ "d90f22d8-170d-4d78-b64f-59356f729f92" "f3251c9e-5721-45a2-a0fc-1e48977d95e2" "fda42cd4-106b-4bd4-b5cb-f791a0f15baa" ] "doi" "10.25950/e49bf93d" "domain" "openkim.org" "extended-id" "EAM_Dynamo_BorovikovMendelevKing_2016_CuZr__MO_097471813275_000" "kim-api-version" "2.0" "maintainer-id" "360c0aed-48ce-45f6-ba13-337f12a531e8" "model-driver" "EAM_Dynamo__MD_120291908751_005" "potential-type" "eam" "publication-year" "2018" "source-citations" [ { "author" "Borovikov, Valery and Mendelev, Mikhail I and King, Alexander H" "doi" "10.1088/0965-0393/24/8/085017" "journal" "Modelling and Simulation in Materials Science and Engineering" "number" "8" "pages" "085017" "recordkey" "MO_097471813275_000a" "recordtype" "article" "title" "Effects of stable and unstable stacking fault energy on dislocation nucleation in nano-crystalline metals" "volume" "24" "year" "2016" } ] "species" [ "Cu" "Zr" ] "title" "Finnis-Sinclair potential (LAMMPS cubic hermite tabulation) for the Cu-Zr system developed by Borovikov, Mendelev and King (2016) v000" }