The plastic yield and flow behavior in metallic glasses | Zendy

P. Thamburaja | Zendy; Benjamin Klusemann | Zendy; Sara Adibi | Zendy; Swantje Bargmann | Zendy

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The plastic yield and flow behavior in metallic glasses

Author(s) -

P. Thamburaja,

Benjamin Klusemann,

Sara Adibi,

Swantje Bargmann

Publication year - 2015

Publication title -

applied physics letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.182

H-Index - 442

eISSN - 1077-3118

pISSN - 0003-6951

DOI - 10.1063/1.4907398

Subject(s) - microelectronics , plasticity , yield (engineering) , materials science , nanoelectronics , von mises yield criterion , flow (mathematics) , amorphous metal , mechanics , statistical physics , thermodynamics , metallurgy , composite material , nanotechnology , physics , finite element method , alloy

Metallic glasses have vast potential applications as components in microelectronics- and nanoelectronics-type devices. The design of such components through computer simulations requires the input of a faithful set of continuum-based constitutive equations. However, one long-standing controversial issue in modeling the plastic behavior of metallic glasses at the continuum level is the use of the most appropriate plastic yield criterion and flow rule. Guided by a series of molecular dynamics simulations conducted at low-homologous temperatures under homogeneous deformations, we quantitatively prove that the continuum plastic behavior in metallic glasses is most accurately described by a von Mises-type plastic yield criterion and flow rule.

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